IMMIGRATION Canada Applying for a Work Permit - Student guide

IMMIGRATION
Canada
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disponible en français
Citizenship and
Immigration Canada
Citoyenneté et
Immigration Canada
This application is made available free by
Citizenship and Immigration Canada and
is not to be sold to applicants.
IMM 5580E (11-2010)
•Off-Campus Work Permit
•Co-op Work Permit
•Post-Graduation Work Permit
Applying for a Work Permit - Student Guide
Table of Contents
Overview . . . . . . . . . . . . . . . . . . . . . . . . .3
Status in Canada . . . . . . . . . . . . . . . . . . .9
Working in Canada. . . . . . . . . . . . . . . . . 11
Restoration of Status . . . . . . . . . . . . . . .12
Completing the Forms . . . . . . . . . . . . . .13
Paying the Fees. . . . . . . . . . . . . . . . . . .19
Submitting Your Application . . . . . . . . . .22
What Happens Next?. . . . . . . . . . . . . . .23
Forms:
Application to Change Conditions, Extend my Stay or Remain in Canada (IMM 1249)
Statutory Declaration of Common-law Union (IMM 5409)
Use of a Representative (IMM 5476)
Document Checklist (IMM 5583)
Receipt (IMM 5401)
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Contact Information
Web site
For more information on the programs offered by Citizenship and Immigration Canada, visit our Web site at www.cic.gc.ca. For some types of applications you can inform us of a change of address and find out what is happening with your application through on-line services on the Web site.
Within Canada
If you are in Canada, you can also phone our Call Centre. An automated telephone service is available seven days a week, 24 hours a day and is easy to use if you have a touch-tone phone. You can listen to pre-recorded information on many programs, order application forms, and for some types of applications the automated service can even update you on the status of your case.
When you call, have a pen and paper ready to record the information you need. Listen carefully to the instructions and press the number for the selection you want. At any time during your call, you may press * (the star key) to repeat a message, 9 to return to the main menu, 0 to speak to an agent, or 8 to end your call. If you have a rotary phone, wait for an agent to answer your call.
If you need to speak to an agent, you must call Monday to Friday between 8 a.m. and 4 p.m. local time.
From anywhere in Canada, call
1-888-242-2100 (toll-free)
Using a text telephone?
Call our TTY service from Monday to Friday between 8 a.m. and 4 p.m. local time at: 1-888-576-8502 (toll-free).
Outside Canada
If you are outside Canada, you can contact a Canadian embassy, high commission or consulate. Consult our Web site for addresses, phone numbers and Web site addresses of our visa offices.This publication is available in alternative formats upon request. This is not a legal document. For legal information, refer to the Immigration and Refugee Protection Act and Regulations or the Citizenship Act and Regulations, as applicable.
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Overview
This guide provides information on Canada's three student work programs:
•Off-Campus Work Permit Program;
•Co-op Work Program;
•Post-Graduation Work Permit Program.
The guide also provides information on your status as an international student in Canada and the conditions and requirements of work permits. All the necessary information, instructions and application forms for you to complete and submit are included.
Note:If you hold a valid study permit, your studies should remain your primary activities during your stay in Canada.
Determining Your Eligibility Under Student Work Programs
Off-Campus Work Permit Program
To be eligible for a work permit under this program you must meet all of the following requirements.
You must:

1.possess a valid study permit;
2.have studied full-time and maintained satisfactory academic standing in your specific program of study at a participating institution for at least six out of the twelve months preceding your application to work off campus (the six months do not have to be consecutive);
3.have applied for the off-campus work permit program at a participating institution;
4.have been, and continue to be, registered as a full-time student in a program other than English or French as a second language (ESL/FSL);
Note:Full-time status and satisfactory academic standing are determined by your institution.
You must complete a Request for Initial Eligibility Verification for an Off-Campus Work Permit from your school which will verify your standing and eligibility. This request is only available via MyCIC, your space on Citizenship and Immigration Canada's website. Your school's Designated Institutional Representative will verify your eligibility and inform you via MyCIC.
5.have authorized the disclosure of personal information between the institution, the provincial or territorial government and Citizenship and Immigration Canada;
Note:In order to participate in this program, you will need to authorize the disclosure of personal information between your institution, the provincial or territorial government and Citizenship and Immigration Canada. This disclosure will be part of the Electronic Verification Number (EVN) process completed through MyCIC. Failure to acknowledge disclosure of this information will result in not obtaining an Off-Campus Work Permit.
and
6.continue to fulfill the terms and conditions of your study permit and work permit, if applicable.
You are not eligible to apply for a work permit under this program if you:
•have previously held an off-campus work permit, failed to maintain your eligibility for the program and failed to comply with the conditions of your work or study permit;
•have a partial or full scholarship or award from:
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·the Canadian Commonwealth Scholarship Program funded by the Department of Foreign Affairs and International Trade (DFAIT);
·the Government of Canada Awards Program funded by DFAIT;
·the Canadian International Development Agency (CIDA);
·the Equal Opportunity Scholarship Program, Canada-Chile;
·the Canada-China Scholars Exchanges Program;
·the Organization of American States Fellowship Program;
•are a visiting student or exchange student at a participating institution; or
•are registered in programs that consist either exclusively, or primarily, of English or French as a second language (ESL/FSL).
Note:An off-campus work permit issued under this program is not interchangeable with a work permit for internships or co-op placements. However, students wishing to participate in both programs may apply for a work permit under each program, as there is no restriction on holding more than one work permit. You must pay the separate fees for each permit.
Important Information
If your status has expired or you did not respect the conditions of your previous permit, and you now require restoration of status, do not submit an application for an off-campus work permit. You are required to restore your status as a student prior to submission of this application. Should your request for restoration be approved, you may then submit this application. Submitting your off-campus work permit application prior to restoration being granted will result in delays in the processing of your work permit.
The following examples can help you determine if you are eligible to apply under this program.
If you....
*Then...
begin full-time studies in September and continue through to the end of February (with the exception of the Christmas break)
you are eligible to apply for a work permit in March because you will have completed 6 months of full-time study.
begin full-time studies in January through April, but are not enrolled in full-time studies during certain summer months
you are not eligible to apply for a work permit until you complete 6 months of full-time studies
begin full-time studies from the beginning of January until the end of June
you are eligible to apply for a work permit in July because you will have completed 6 months of full-time study.
begin full-time studies from January until the end of April, then take a four month summer break but resume full-time studies in September
you are eligible to apply in November because you will have completed 6 months of full-time study in total from January to April, and September to October.
are pursuing full time studies from September to December followed by a co-op work term from January to April.
** If the institution considers students on co-op work terms to have full-time status, and if you continue to comply with the institution’s co-op rules you will be eligible to apply for the work permit as early as March (September to February = 6 months).
* At the time of application, you must still be enrolled in full-time studies and be in satisfatory academic standing.
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** Note: Some institutions consider students to have “full-time” status during the “work experience” portion of their co-op program. If an institution considers a student to have “full-time” status during the “work experience” portion of the program and the student continues to comply with the institution’s co-op rules, the student will be eligible for the program. Participation in the work experience portion of the program can be included in the calculation of the six months of full-time studies.
Co-op Work Program
Work experience is a required component of some programs of study, for example co-op and internship programs.
In these cases, an open work permit can be issued with the institution listed as the employer. In cases where several work periods are necessary throughout the program, the work permit can be issued for the same period as the study permit.
To be eligible for a work permit under a co-op or internship program, the following conditions must be met:
•you must have a valid study permit (unless you are a minor high-school student who does not require a study permit);
•your intended employment must be an essential part of your program of study in Canada;
•your employment must be certified as part of the academic program by a responsible academic official of the institution;
•your co-op or internship employment cannot form more than 50 percent of the total program of study; and
•you are not a medical intern or extern, nor a resident physician (except in veterinary medicine).
Note:International students, scholars, and scientists may also obtain work permits for work related to a research, educational or training program. These work permits are issued under specific programs funded by the Canadian International Development Agency (CIDA), the International Development Research Centre of Canada (IDRC), Atomic Energy of Canada Ltd., the National Research Council of Canada (NRC), the Natural Sciences and Engineering Research Council of Canada (NSERC).
Post-Graduation Work Permit Program
The Post-Graduation Work Permit Program is designed to provide graduating students with Canadian work experience. Students may work in Canada for up to three years after graduation.
Does the length of study in Canada impact on the length of the work permit?
Yes. The work permit cannot be valid longer than the length of time the student studied in Canada. For example, students graduating from a four-year degree program might be eligible for a three year work permit. Students graduating from an eight-month certificate program would only be eligible for a work permit of eight months.
If you studied for....
Then...
less then eight months
you are not eligible for this program
less then two years but more than eight months
you may get a work permit for a period no longer than the length of time you studied
(for example, if you studied for nine months, a work permit may be issued for a period of nine months)
two years or more
a work permit may be issued for three years
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Who may apply for a work permit?
You may apply for a work permit if you:
•graduated from a specific program of full-time study (of at least eight months) in Canada at:
·a public post-secondary institution; or
·a private post-secondary institution that operates under the same rules and regulations as a public institution, receives at least 50 percent of its financing for its overall operations from government (currently, only private college-level educational institutions in Quebec fit that description); or
·a Canadian private institution authorized by provincial law to confer degrees, but only if you are enrolled in one of the programs of study leading to a degree as authorized by the province and not in all programs of study offered by the private institution.
Note:You can apply for a work permit while completing your last semester as a part-time student.
•have a valid study permit when you apply for the work permit; and
•have not previously been issued a work permit for post-graduation employment following any other course of study.
Note:Distance-learning from either inside or outside of Canada does not qualify for this program.
You are not eligible for the Post-Graduation Work Permit Program if you:
•study in a program that is less than eight months long;
•participate in a Canadian Commonwealth Scholarship Program funded by the Department of Foreign Affairs and International Trade (DFAIT);
•participate in a Government of Canada Awards Program funded by DFAIT;
•receive funding from the Canadian International Development Agency (CIDA);
•participate in the Equal Opportunity Scholarship Program, Canada-Chile;
•participate in the Canada-China Scholars Exchanges Program;
•participate in the Organization of American States Fellowship Program;
•participate in a distance learning program either from abroad or from within Canada; or
•have previously been issued a Post-Graduation Work Permit following any other program of study.
When do I have to submit my application?
You must submit your application for a work permit within 90 days, starting from the day when your final marks are issued, or when you receive a formal written notification of graduation from the institution, whichever comes first, indicating that you have met the requirements of your program of study. Your study permit must continue to be valid upon submission of your application for a work permit.
Note:If you have other evidence that you have successfully completed your program (such as a final transcript or a letter from the institution), you may apply for your work permit before you receive your formal notification of graduation.
Students who are already working under a work permit issued under the previous rules are eligible to apply for an extension, however the total duration of the permit including the extension should not exceed the maximum duration allowed by the new program parameters.
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How do I submit my application?
There are two available options:
•Download, complete and mail your application, including all required documents to the address provided in the present instruction guide, or
•Complete and send your application electronically (you will be required to create a MyCIC profile and to obtain a Government of Canada epass)
Working on Campus
Do students need a work permit to work on campus?
If you are a full-time student attending a university or college, you do not need a work permit when the employment offered is on the campus of the college or university where you are registered full-time, for as long as the study permit is valid.
There are some restrictions on the jobs you can take based on medical factors:
•If you have already passed an immigration medical exam, you may work in any type of job;
•If you intend to work in an occupation in which the protection of public health is essential, you must pass an immigration medical exam. (Examples of these are: workers in health services fields; teachers of primary or secondary schools or other workers coming into contact with small children; domestic workers or live-in caregivers; workers who provide in-home care).
•If you intend to work as an agricultural worker and have lived in or visited a designated country (for a list of designated countries, refer to our Web site) for more than six months within the last year, you must pass a medical exam.
•To submit to a medical exam, you must make an appointment with a Designated Medical Practitioner (DMP). Visit our Web site for the list of DMPs or contact the Call Centre to find the DMP nearest to you. Note that it may take a few weeks for your results to be available.
It is illegal to remain in Canada beyond the validity of your status in Canada.
It is illegal to work without a required work permit.
It is illegal to study without a required study permit.
After reading this instruction guide, if you believe you are eligible to apply then you should proceed as instructed below:
•Gather all the necessary documents. They are listed on the Document Checklist, Students Applying for a Work Permit (IMM 5583)
•Calculate and pay the fees.
•Photocopy the blank forms and use one as a working copy. Keep it for your records.
•Fill in the forms carefully and completely.
•Sign and date your forms.
•Mail your application to the address listed in section Submitting Your Application.
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Note:you may also submit your application electronically for the following:
·Off-campus work permit
·Post-graduation work permit
Processing Times for your Application
We will review your application to determine if it is complete. If your application is not signed, or if the required fee is missing, it will be returned to you and you will have to re-apply. If other information is missing, your application may be returned or refused.
You will receive:
•your work permit; or
•a letter refusing your application; or
•notification that your application has been referred to a local Canada Immigration Centre for further assessment.
The Case Processing Centre-Vegreville (CPC-Vegreville) completes most of the applications it receives; however, a small number are referred to a local office for further clarification. If your application is referred to a local office, an officer from that office will contact you to obtain additional information or clarification. It may take up to three months for them to contact you.
Note:The Case Processing Centre receives large volumes of applications in the temporary resident categories each year. It is recommended that you apply at least 30 days before the expiry of your current document. However, you may want to apply in advance of this recommended period since processing delays vary. Contact the Call Centre at 1-888-242-2100 or click on the link below for current processing times.
Current processing times are updated weekly on our Web site.
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Status in Canada
Who receives temporary resident status?
All persons authorized to enter Canada who are not Canadian citizens or permanent residents are authorized to enter as temporary residents in one of the three classes: visitor, student or worker. When they enter Canada they are also given temporary resident status for a certain period of time.
How do I know the expiry date of my temporary resident status?
1.Temporary residents travelling with passports:
When you arrived in Canada and gave your passport to the officer, they authorized your stay by placing a stamp in your passport and/or issuing an additional document. Check your passport. If you find a stamp, it should look like one of these.
For example, if the officer specified a date as shown in the above illustration, your temporary resident status would expire on June 30th, 1993.
If there is no stamp, a handwritten date or document in your passport, your temporary resident status will expire six months from the day you arrived in Canada.
If you were given a visitor record, student or work permit, the expiry date is marked on the document.
Note:For applicants who require a temporary resident visa (TRV) to enter Canada: A renewal of a study permit does not affect your TRV. It is your responsibility to ensure your TRV remains valid if you wish to re-enter Canada. After leaving Canada, you must apply for and obtain a TRV abroad by applying to a Canadian visa office. (see Application for a Temporary Resident Visa to Visit Canada - IMM 5256)
2.Temporary Residents travelling without passports:
If you did not require a passport to enter Canada, your temporary resident status will expire six months from the day you entered Canada unless you were given a visitor record, study or work permit. If you were given a document, the expiry date is marked on it.
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What information do I need to apply for a renewed or initial study permit?
1.Full details of the studies;
2.Proof of identity;
3.Proof of current status in Canada;
4.Evidence of how you will support yourself or be supported in Canada and how you will pay for transportation to leave Canada; such as,
·Guarantor’s letter;
·Bank statement indicating name of account holder and account number; or
·Details of how you intend to leave Canada including the date, time and type of transportation.
May I leave Canada before my request for a renewed or initial study permit has been finalized?
Yes. However, if you leave temporarily and you do not have your new document before you seek to re-enter Canada, you will have to re-apply (either at the port of entry if you have the right to do so, or at a visa office outside Canada) and pay another processing fee.
May I leave, then re-enter Canada?
In order to return to Canada, you must be in possession of a valid passport or travel document. You also need to hold a valid study or work permit if you are returning to study or work in Canada.
If you are a citizen of a country that requires a temporary resident visa (TRV) to travel to Canada, you will also need to be in possession of a valid entry visa to return, unless:
•you are returning to Canada following a visit only to the United States or St-Pierre and Miquelon; and
•you return before the expiry of the period initially authorized for your entry or any extension to it, either as a visitor, student or worker.
Possession of these documents does not guarantee re-entry. All persons must establish that they meet all of the requirements of the Immigration and Refugee Protection Act and Regulations before being authorized to enter or re-enter Canada.
Note:Citizens of the U.S. do not require passports or travel documents to enter or return to Canada. Permanent residents of the U.S. do not require passports or travel documents if they are entering or returning to Canada from the U.S. or St. Pierre and Miquelon.
However, both must provide documentary proof of citizenship or permanent residence such as a national identity card or an alien registration card.
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Working in Canada
What is a work permit?
A written authorization to work in Canada issued by an officer to a person who is not a Canadian citizen or a permanent resident of Canada. It is required whether or not the employer is in Canada. Usually, it is valid only for a specified job and length of time. A work permit may be issued based on a labour market opinion (Service Canada confirmation) or may be issued on the basis of other requirements.
Are there any conditions on my work permit?
An officer may impose, vary or cancel conditions when issuing a work permit. These may include one or more of the following:
•the type of employment in which you may work;
•the employer for whom you may work;
•where you may work;
•how long you may continue to work.
Will I require a Social Insurance Number (SIN)?
Yes, a SIN card is necessary to work in Canada. Employers must ask to see the SIN card of all new employees as soon as they are hired. You may apply for a SIN before or within 3 days after you start to work (you must show the proof of application within three days of the start date of employment) and you may work during the waiting period.
You must obtain a SIN from Service Canada. To work on-campus, you must provide a valid study permit and an employment contract; to work off-campus, you must provide a valid off-campus work permit as Service Canada will require proof that you are eligible to work in Canada. It is recommended that you apply in person for the card and allow three weeks for processing.
Further information on the application process for a Social Insurance Number may be obtained by visiting the Service Canada Web site.
When is a medical exam required?
If you are requesting a work permit to allow you to work in the field of health services or with children, you must complete and pass an immigration medical before you submit your application for a work permit. Examples of occupations in health services include hospital staff, clinical laboratory workers, patient attendants in nursing and geriatric homes, and medical students admitted to attend Canadian universities.
If you want to work in agricultural occupations, a medical exam will be needed if you have visited or lived in a designated country for six months or more. A list of designated countries can be obtained on our Web site.
If you have already passed an immigration medical exam, which remains valid, or will not be working in the areas outlined above, you do not require a medical exam.
For a complete list of occupations requiring immigration medical exams, refer to our Web site.
You must make your appointment with a Designated Medical Practitioner (DMP). Visit our Web site for the list of DMPs or contact the Call Centre to find the DMP nearest to you.
Note:After you have your medical exam it may take a few weeks to have your results available. Therefore, you should allow a month to pass before submitting your application to ensure your results have been received. You must submit proof that you underwent a medical exam (copy of fees paid receipt) with your application. Failure to do so may result in processing delays or your application being returned or refused.
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Restoration of Status
If your status has expired or if you did not respect one of the conditions of your permit or you have worked or studied without a required permit, you have committed an offence under the Immigration and Refugee Protection Act. You may be subject to an admissibility hearing that could lead to removal from Canada.
If your temporary resident status has expired, do not apply for a work permit as you are not eligible. Your temporary resident status in Canada will have been lost, and (if applicable) your student permit will have ceased to be valid. However, if you wish to stay in Canada after your status has expired, you may apply for restoration of status within 90 days of your permit expiry date or leave Canada. If you wish to apply for restoration, complete the enclosed application providing full details of how you came to commit the offence. There is no guarantee that your application will be accepted.
You may only seek restoration within 90 days after your status as a temporary resident has been lost as a result of:
•having remained in Canada longer than the period authorized for your stay (but not longer than 90 days)
•having changed employers, type of work, or location of work without applying to change these conditions if they were specified on your work permit.
•having failed to meet the initial requirements for your stay and have not failed to comply with any other conditions imposed.
If you apply for a study permit, you must pay the permit fee as well as the restoration fee when applying. Restoration applies to each family member who has lost his or her status.
An officer will evaluate your request for restoration of status and if approved will process your application for a study permit. You will then be advised of any further action to be taken.
If you are applying for an off-campus work permit see section Off-Campus Work Permit Program for more details on what restoration of status means for you.
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Completing the Forms
As most of the forms are self-explanatory we have only provided supplementary instructions where required. If you need more space, attach a separate sheet of paper and indicate the letter and/or number of the question you are answering. Your application may be returned or refused if it is not properly completed, or if all of the necessary documents have not been submitted. Type or print clearly in black or blue ink.
You must provide truthful, accurate information. The information provided may be verified. The processing of your application may stop if you give false or misleading information. It is an offence under section 127 of the Immigration and Refugee Protection Act to knowingly make a false statement on this form.
Family members who are applying together
Each member of your immediate family (spouse or common-law partner, dependent children) who wishes to remain longer, study or work in Canada must apply for permission to do so. If you all apply at the same time for an extension, each person will not have to submit a separate application form. Instead, fill in one form including your details and those of your immediate family. All appropriate documentation and the required fee for each person must also be included.
Off-campus work permit - Applying electronically
Eligibility Verification and the Electronic Verification Number
Individuals applying for an Off-Campus Work Permit must do so on-line by creating a profile on CIC's website at MyCIC and then proceed with a request for Eligibility Verification. In completing this request, you will be required to sign a consent statement. This request for verification will be forwarded the Designated Institutional Representative at you participating educational institution. If you satisfy the academic eligibility requirements, an Electronic Verification Number (EVN) will be issued and you will be notified by email. If approved, the EVN is valid for 60 calendar days. If you have not applied for an Off-Campus Work Permit within the 60 day validity period you must request a new EVN in order to re-apply for the program at a later date.
Work permit under the Post-Graduation Work Permit Program - Applying electronically
Individuals applying electronically for a work permit under the Post-Graduation Work Permit Program can do so on-line only by first creating a MyCIC profile on CIC's website. Afterwards, they may proceed with submitting their application electronically.
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Application to Change Conditions, Extend My Stay or Remain in Canada (IMM 1249)
If you know your client ID number print it in the space provided.
“I am applying for”:
Indicate that you are applying for an initial work permit by ticking the appropriate box. If you require more than one service and you are using only one application, tick the boxes that correspond to each of the services you require. For example, if you are applying for a renewal of your study permit and for a new work permit, tick boxes “B” and “C”, and include the required documentation and fees.
This form is designed for multiple purposes, if a question does not apply to your request, indicate N/A for not applicable.
A – Personal Information
Surname (Family name) and given name(s)
Print all names as they appear on your passport or identity document. Do not use initials.
Other names
Print all names you have ever used, including different spellings of your name. Explain what these names are, e.g., ‘Maggie’ (nickname), ‘Smith’ (birth name/maiden name), ‘Leroux’ (former married name).
Citizenship
If you are a citizen of more than one country, enter the names of all countries.
Passport number
If you did not use a passport to enter Canada, indicate the type and number of other travel or identity documents you used to enter Canada. Passports and travel documents must be valid for the duration of your stay.
Country of last permanent residence
Regardless of the time you may have resided in a country, if your status was of a temporary nature (foreign student, guest worker, etc.) it is not your country of last permanent residence.
If your country of last permanent residence is the country where you were born, put an “x” in the box “since birth”. Otherwise put an “x” in “since” and print the year that you moved to that country.
Languages
Write your native language (the language you learned at home in childhood and still understand).
Check the box to indicate which of Canada's official languages (French or English) you use most frequently. If you do not use French or English, check the "Neither" box.
One of Canada's objectives with respect to immigration is to support and assist the development of minority language communities in Canada.
Note:This question is not used for selection purposes.
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Addresses
Provide your current mailing address in Canada. All correspondence will be sent to this address
Note:If you wish to authorize a Canadian representative to receive correspondence concerning your application, indicate their address in this box and on the form Use of a Representative (IMM 5476)
Telephone number for messages
If you have access to a telephone where a message can be left for you, print the number here.
B – My Family Members
You must give information about your family members. Family members are your spouse or common-law partner, your own dependent children or those of your spouse or common-law partner and the dependent children of dependent children. A common-law partner is a person of the opposite or same sex who is currently cohabiting and has cohabited in a conjugal relationship with you for a period of at least one year.
Your family member will be considered your dependent child if that child:
A.is under the age of 22 and single, i.e. not married and not in a common-law relationship; or
B.married or entered into a common-law relationship before the age of 22 and, since becoming a spouse or a common-law partner, has
•been continuously enrolled and in attendance as a full-time student in a post-secondary institution accredited by the relevant government authority and
•depended substantially on the financial support of a parent; or
is 22 years of age or older and, since before the age of 22, has
•been continuously enrolled and in attendance as a full-time student in a post-secondary institution accredited by the relevant government authority and
•depended substantially on the financial support of a parent; or
C.is 22 years of age or older, has depended substantially on the financial support of a parent since before the age of 22 and is unable to provide for him/herself due to a medical condition.
Children included in the application must meet the definition of “dependent children” both at the time the application is made and, without taking into account whether they have attained 22 years of age, at the time the visa is issued to them.
Include them on your application by providing their names and other information in the appropriate space on the application form. Indicate if your family members are currently in Canada.
Important: In order to benefit from provisions outlined in the Immigration and Refugee Protection Act and Regulations for spouses or common-law partners of workers or students, you must provide proof of your relationship and status in Canada. You must provide a marriage certificate and birth certificates for any accompanying family members. If you are in a common-law relationship and your common-law spouse will accompany you to Canada, you must complete the enclosed form, Statutory Declaration of Common-Law Union(IMM 5409). Also provide evidence outlined on the form to support your relationship.
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For each family member print:
Surname (Family name) and given name(s)
Print all names as they appear on the passport or identity document. Do not use initials.
Relationship
Print the person’s relationship to you - husband, wife, son or daughter.
Passport and expiry date
If it was not a passport which was used to enter Canada, indicate the type and number of other travel or identity documents used. Passports and travel documents must be valid.
Languages
Write your native language (the language you learned at home in childhood and still understand).
Check the box to indicate which of Canada's official languages (French or English) you use most frequently. If you do not use French or English, check the "Neither" box.
One of Canada's objectives with respect to immigration is to support and assist the development of minority language communities in Canada.
Note:This question is not used for selection purposes.
C – Coming Into Canada
This information will assist us in retrieving your previous records.
D – My Request
Box 10
You must explain why you wish an extension and/or a change of conditions for yourself or your family members.
If you are a temporary resident permit (TRP) holder you must inform us of any change to your personal circumstances. You must also inform us if any of the reasons you were originally issued a permit change after it is issued. For example, if you applied unsuccessfully for an immigrant visa to live with a family member (sponsor) in Canada, are you still living with your sponsor? Or, have you been convicted of an offence since you first received your permit?
If your temporary resident status has expired and you wish consideration for restoration, explain the reasons for this.
If you are applying for a work permit, check off “Change conditions” if your study permit prohibits you from working, or indicate “N/A” if the question does not apply to your request.
Box 11
Provide details of how you will support yourself and your family members while in Canada and how you will pay for transportation to leave Canada.
Provide specifics on ‘Other’ sources of support (employment income/employer).
If a relative or friend will provide support include their name, address and the relationship to you.
Applying for a Work Permit - Student Guide 17
E – Additional Information
Box 12
If you or your family members remained beyond the validity of your status, attended school without permission or worked without permission, give full details and circumstances concerning the situation(s).
Box 13
Indicate if you or any of your family members in Canada have ever been convicted of, or charged with a crime or offence in any country. If convicted, indicate whether a pardon has been granted.
Box 14
Indicate if you or any of your family members have suffered from any serious mental or physical illness. If so, provide full details.
F – Notice regarding personal information
You must read this section.
G – Declaration Of Applicant
You must sign and date the application. Failure to do so will result in it being returned to you.
We suggest that you retain photocopies of your application and supporting documentation for your records.
Use of a Representative (IMM 5476)
Complete this form if you are appointing a representative.
If you have dependent children aged 18 years or older, they are required to complete their own copy of this form if a representative is also conducting business on their behalf.
A representative is someone who has your permission to conduct business on your behalf with Citizenship and Immigration Canada. When you appoint a representative, you also authorize CIC to share information from your case file to this person.
You are not obliged to hire a representative. We treat everyone equally, whether they use the services of a representative or not. If you choose to hire a representative, your application will not be given special attention nor can you expect faster processing or a more favourable outcome.
The representative you appoint is authorized to represent you only on matters related to the application you submit with this form. You can appoint only one representative for each application you submit.
There are two types of representatives:
Unpaid representatives
•friends and family members who do not charge a fee for their advice and services;
•organizations that do not charge a fee for providing immigration advice or assistance (such as a non-governmental or religious organization);
•consultants, lawyers and Québec notaries who do not, and will not, charge a fee to represent you.
Paid representatives
18 Applying for a Work Permit - Student Guide
If you want us to conduct business with a representative who is, or will be charging a fee to represent you, he or she must be authorized. Authorized representatives are:
•immigration consultants who are members in good standing of the Canadian Society of Immigration Consultants (CSIC);
•lawyers who are members in good standing of a Canadian provincial or territorial law society and students-at-law under their supervision;
•notaries who are members in good standing of the Chambre des notaires du Québec and students-at-law under their supervision.
If you appoint a paid representative who is not a member of one of these designated bodies, your application will be returned. For more information on using a representative, visit our Web site.
Section B.
5.Your representative’s full name
If your representative is a member of CSIC, a law society or the Chambre des notaires du Québec, print his or her name as it appears on the organization’s membership list.
8.Your representative's declaration
Your representative must sign to accept responsibility for conducting business on your behalf.
Section D.
10.Your declaration
By signing, you authorize us to complete your request for yourself and your dependent children under 18 years of age. If your spouse or common-law partner is included in this request, he or she must sign in the box provided.
Release of information to other individuals
To authorize CIC to release information from your case file to someone other than a representative, you will need to complete the form Authority to Release Personal Information to a Designated Individual (IMM 5475) which is available on our Web site at www.cic.gc.ca/english/information/applications/release-info.asp and from Canadian embassies, high commissions and consulates abroad.
The person you designate will be able to obtain information on your case file, such as the status of your application. However, he or she will not be able to conduct business on your behalf with CIC.
You must notify us if your representative’s contact information changes or if you cancel the appointment of a representative.
Document Checklist - Students Applying for a Work Permit (IMM 5583)
Use the Document Checklist to make sure you are attaching all the required documents to your application. Include the checklist with your application.
Applying for a Work Permit - Student Guide 19
Paying the Fees
Required Fees
You must pay a processing fee for each service that you require and all fees must be submitted with your application. If you apply for more than one service on a single application you must add up the fees for each service and submit the total of the fees with your application.
Use this chart to calculate the fees required for the service(s) you are applying for.
Note:It is not necessary to make a separate application for an extension of temporary resident status when you apply for a work or study permit. The officer will issue all the necessary documentation with the one application
Note:There is no fee for the Co-op Work Program.
Use this chart to calculate the fees required for the service(s) you are requesting.
SERVICES
Number of Persons
Amount per person
Amount Due
Renewed or Initial Work Permit (for any program)
x $150
Restoration of Temporary Status (due to loss of status as a student)
x $200
Renewal of Study Permit
x $125
Total
$
Make sure that you are eligible before you pay your fees and that you provide all the information requested before you submit the application. The processing fee will not be refunded, regardless of the final decision once the Case Processing Centre has started processing the application. For example, if your study permit has expired and you incorrectly apply for an extension of study permit, no refund for the extension will be provided and you will be asked to provide a second fee for the restoration.
Note:If you are out of status, you must pay the study permit fee as well as the restoration fee when applying. Restoration applies to each person who has lost his or her status.
A determination that you are not eligible is considered as “processing” and the fee will not be refunded. If you apply again, you will have to pay another processing fee.
How to pay your fees
You have the option of paying your fees on our Web site or at a financial institution.
Option 1. Payment of fees on our Web site
To use this option, you need:
•a credit card;
•access to a computer with a printer;
•a valid email address; and
•follow these steps below.
Step
Action
1
Log on to our Web site at www.cic.gc.ca.
2
Select "I Need To..." on the right hand side of the page.
3
Click on Pay My Application Fees.
4
Click on Pay fees online.
20 Applying for a Work Permit - Student Guide
Once you have paid the fees you must:
•print the official receipt;
•fill out by hand the “Payer Information” section;
•attach the bottom portion (copy 2) of this receipt to your completed application.
Option 2. Payment of fees at a financial institution
STEP 1.Fill in the total
Enter the “Amount payable” you have calculated at the bottom of the Receipt (IMM 5401).
Photocopies of the receipt are not accepted. If you need an original receipt, you can order it from our Web site or contact the Call Centre.
STEP 2.Complete the “Payer Information” sections on the back of the receipt
If you already know the Client ID assigned to you, enter the number in the box provided. If you do not know your Client ID, leave that box empty.
STEP 3.Go to a financial institution and make the payment
Bring the receipt with you. A financial institution representative will tell you which forms of payment are acceptable. There is no charge for the service.
STEP 4.Send your receipt
Attach the middle portion (Copy 2) of the receipt to your completed application. Keep the top portion (Copy 1) for your files.
Do not include any other type of payment with your application.
Incorrect payments
If you have sent insufficient fees or incorrect form of payment, we will return your application with instructions. You must then pay the additional fees and mail everything back to us. This will delay the processing of your application. If you have overpaid, we will refund the overpayment. We will issue a cheque as soon as possible.
Refunds
To obtain a refund, you need to send a written request to withdraw your application to the processing centre at CPC Vegreville, 6212 - 55th Avenue, Vegreville AB T9C 1W5.
The processing fee is only refundable if we receive your request before processing has begun. Once we have started to process your application, there will be no refunds regardless of the final decision.
We will issue the refund to the person indicated on the “Payer Information” section of the receipt. If there is no name indicated on the receipt, we will send the refund to you.
Applying for a Work Permit - Student Guide 21
22 Applying for a Work Permit - Student Guide
Submitting Your Application
If you are applying under the following programs:
•Off-Campus Work Permit Program
•Co-op Work Program
•Post-Graduation Work Permit ProgramSubmitting Applications Electronically
•You may submit your application for the Off-Campus Work Permit Program or the Post-Graduation Work Permit Program electronically by following the instructions on our Web site.
Note:For the purposes of the Off-Campus Work Permit Program, you may submit your application electronically if you are currently attending one of the participating institutions listed on CIC's website (see: www.cic.gc.ca/english/study/institutions/participants.asp).
Mailing your application
And if family members are applying to extend their stay, study or work in Canada; include all applications in the same envelope.
Put all the completed forms, supporting documents and fee payment receipt in a large envelope.
•Address the envelope as follow:
Type of Work permit applications
Send your application to:
Student work permit extensions (includes Co-op, Off-Campus Work Permits and Internships)
Citizenship and Immigration -
Work Permit
CPC-Vegreville
6212 - 55th Avenue, Unit 202
Vegreville AB
T9C 1X6
New Student work permits (includes Co-op, Off-Campus Work Permits, Internships and Post-Graduation Work Permits)
Citizenship and Immigration -
Work Permit
CPC-Vegreville
6212 - 55th Avenue, Unit 555
Vegreville AB
T9C 1X6
Write your name and address at the top left-hand corner of the envelope.
Have the post office weigh your envelope to ensure you put sufficient postage on it.
Applying for a Work Permit - Student Guide 23
What Happens Next?
After sending your application, you do not need to take further action unless you are informed otherwise. The following situations may arise:
Your application is approved:
You will receive a work permit indicating the conditions of work.
See Additional Steps for the Off-Campus Work Permit Program (below) for students who applied for an off-campus work permit.
Your application is refused:
You will receive a letter of refusal. In this case you can only stay in Canada until the expiry date of your current temporary resident status.
Your application is referred to a local office:
You will receive a notification that your application was referred to a local office for further assessment and you will subsequently be contacted by this office.
If you applied for restoration of temporary resident status:
You will receive a letter advising you of the decision, and providing you with instructions.
Your responsibilities
Once you receive a work permit you must respect the conditions of the work permit and continue to meet the eligibility requirements of your Student Work Program.
Note:Failure to comply with the terms and conditions of the work or study permit or with the requirements of the Immigration and Refugee Protection Act and Regulations may result in enforcement action by the Canada Border Services Agency, and negatively affect other future applications you make under the Immigration and Refugee Protection Act.
Note:If you move before your application has been processed, you must advise us of your new address by contacting the Call Centre.
Additional Steps for the Off-Campus Work Permit Program
Conditions of the Work Permit
Your work permit will be issued up to the maximum duration of your study permit. You will be entitled to work:
•up to 20 hours per week during any academic sessions (including summer if studying during that period of time);
•full time during scheduled breaks (for example, during winter and summer holidays, reading week).
24 Applying for a Work Permit - Student Guide
Your Responsibilities
If at any time you become ineligible for the program, you should:
•inform your employer that you are no longer authorized to work, and
•surrender your work permit. Contact the Call Centre or visit our Web site for more information.
You may then re-apply at a later date (at least six months later) when you meet the eligibility requirements again.
Transferring from one institution to another
If you have studied at two participating institutions during the past two sessions, you must request that the designated Institution Representative (DIR) at the institution where you are enrolled at the time of application requests a transfer of your Eligibility Verification. Failure to do so will result in you being reported ineligible by your former institution as you will no longer be attending that institution.
Transfer of Verification
If you transfer from one participating institution to another, you must notify the DIR at your new institution that you are participating in the Off-Campus Work Program. It is your responsibility to request that your Eligibility Verification is sent from your former institution to your new institution.
The DIR at the new institution will then be responsible for the annual verification of your academic eligibility. It is your responsibility to ensure that your DIR has obtained a copy of your Eligibility Verification from your former institution.
If at any time you are unsure whether you continue to be eligible for your off-campus work permit, you may request that the DIR check that you meet the eligibility criteria. It is your responsibility to surrender your work permit when you have become ineligible for the off-campus program to ensure that you will not be found non-compliant.
Revoking Your Consent to Release of Information
Students who were issued a Verification Form but who did not receive or apply for a work permit under the Program can revoke their consent to release information (signed on the Student Acknowledgement and Consent Form).
•If you were refused an off-campus work permit, you must provide the DIR with a copy of your letter of refusal and a completed Use of a Representative form (IMM 5476) that will allow the DIR to notify CIC of your request for revocation and of your consent.
•If you were issued a Verification form but did not apply for an off-campus work permit, you must provide the DIR with a completed Use of Representative form (IMM 5476) that will allow the DIR to notify CIC of your request for revocation of their consent, and the original copy of the Verification form that was issued to you. You must also provide the DIR with a note that indicates the reason for not applying for an off-campus work permit.

Neuro musculo skeletal examination and assessment



Neuromusculoskeletal Examination and Assessment
To our parents,
Alfred Holdsworth and Vera Petty
Alan John Talbot and Zoe Irene Moore
For CllIlrcltifl Liviltgstolle:
Editorial Director: Mary L..lw
Project Manager: Gail Murray
Project DL'Ve{opme1lt Mallager: Dinah Thom
Desigller: George Ajayi
Neuromusculoskeletal
Examination and
Assessment
A Handbook for Therapists
Nicola J Pettv MSc GradDipManipTher MCSP MMPA MMACP
Senior Lecturer, School of Hearth Professions,
University of Brighton, Eastboume, UK
Ann P Moore PhD GradDipPhys FCSP DipTP CartEd MMACP
Professor of Physiotherapy, Director of Clinical Research Centre for Health Professions,
University of Brighton. Eastbourne, UK
Foreword by
G D Maitland MBE AUA FCSP FACP MApplSci
Consultant Manipulative Physiotherapist, Glenside, South Australia
SECOND EDITION
/,i\ CHURCHill .L􀀅 LIVINGSTONE
U
EDINBURGH LONDON NEW YORK PHILADELPHIA ST LOUIS SYDNEY TORONTO 2001
CHURCHILL LIVINGSTONE
An imprint of Harcourt Publishers Limited
© reMson Professional Limited 1997
© Harcourt Publishers Limited 1999.2001
􀀪 is a registered tradcm
The right of icola J Petty and Ann P Moore to be identified as authors
of this work has been asserted by them in accordance \vith the
Copyright, Oesigns and Patents Act '1988.
All rights reserved. No part of this publication may be reproduced,
stored in a retrieval system, or transmitted in ,my form or by any
means, ek>ctronic, mechanicil!, photocopying, recording or otherwise,
without either the prior permission of the publishers (Harcourt
Publishers Limited, Harcourt Place, 32 Jamt.'Stown Road, London
NWI 7BY), or a licence permitting restricted copying in the United
Kingdom issued by the Copyright Licensing Agency, 90 Tottenham
Court Road, London Wl P OLP.
First edition 1997
Second edition 2001
ISBN 0 443 0706 I X
British library Cataloguing in Publication Data
A catillogue record for this book is available from the British Library
library of Congress Cataloging in Publication Data
A catalog record for this book is ,wailable from the Library of Congress
Note
Medical knowledge is constantly changing. As new information
becomes availilble, changes in treatment, procl:-'Ciur£.."S, equipment and
the use of drugs become necessary. The authors and the publishers
have taken care to ensure that the information given in thb text is
tlccurtl!e ilnd up to date. However. readers are strongly advised to
confirm Ihilt the information. cspt'Cially with regard to drug usage.
complies with the I(ltesl legislation and st'lIldards of practice.
Neither the publishers nor the authors will be liable for any loss or
dilmagc of any nature occasioned to or suifered by tiny person tlcling or
refraining from (lcting (IS a rcsult of reliance on the material contained
in this publication.
Printed in China
Tho
publishers
pc;.cy ·s to use
paper INInulaclured
trom sustaln.bIe lonsls
I
Contents
Foreword to the first edition ix
Preface to the second edition xi
Preface to the first edition xii
Glossary of terms xiv
1. Introduction 1
2. Subjective examination 5
3. Physical examination 35
4. Examination of the ternporornandibular
joint 113
5. Examination of the upper cervical spine 129
6. Examination of the cervicothoracic spine
151
7. Examination of the thoracic spine 171
8. Examination of the shoulder region 189
9. Examination of the elbow region 213
10. Examination of the wrist and hand 231
'11 . Examination of the lumbar spine 257
"I2. Examination of the pelvis 279
13. Examination of the hip region 297
14. Examination of the knee region 313
15. Examination of the foot and ankle 337
16. Epilogue 361
Index 365
Foreword to the first edition
The authors are to be congratulated on being able
to put together the work of a number of clinical
manipulative therapists, some of whom have
dealt with manual therapy as a whole while
others have concentrated on specific aspects of
manipulative physiotherapy.
The standard of the whole field has grown
almost out of recognition over the last 50 years.
Latterly this coming together has been largely
due to Gwen )ull's 'prove it or lose it' approach.
Another significant factor has been the improved
communication of a shrinking world; this has
brought together the different approaches to the
basis, teaching and performance of manipulative
physiotherapy.
In our profeSSion knowledge, skills and opportunities
have increased substantially. It is wonderful
to see these two authors, Nikki Petty and
Ann Moore, making such an excellent job of
putting together the contributions of all the
familiar names into one volume. The coming
generation needs to continue this trend; it won't
all happen quickly but this start is excellent. The
text is appropriate for the undergraduate, postgraduate
and the practising therapist who is not
fully aware of the diversity of concepts within
manipulative physiotherapy.
G D Maitland
Preface to the second edition
The first edition of this text was, like so many
other publications, out of date the day it was
published. The time between completing the
manuscript and the book being sold in the shops
saw further developments in manipulative physiotherapy;
this was particularly the case in the
area of muscle testing.
One major addition to this second edition is in
the area of muscle testing, including work by
both Shirley Sahrmann, and Mark Comerford
and Kinetic Control. A new textbook by Shirley
SahrmarHl, which is the first of its kind, is due to
be published just after this manuscript goes to
press. Other substantial changes to this text
include a major revisiting of the wrist and hand
ACKNOWLEDGEMENTS
The authors would like to thank all those who
kindly read chapters of the first edition and provided
detailed comments and additions to the
text. These reviewers include: Mandy A very
GradDipPhys SRI' MMACP for the chapter on the
knee; Steve Bunce BEd(Hons) GradDipPhys SRI'
for adding hlrther information about muscle
exatllination and assessment throughout the text;
Hubert van Griensven BSe GradDipPhys MBAcC
for the inclusion of more reference to pain
throughout the book; Clair Hebron BSe(Hons)
MCSP SRI' MMACP for advice on the chapter on
the pelvis; Arturo Lawson GradDipPhys SRP
and the foot and ankle chapters by a hand therapist
and podiatrist respectively. Additional consideration
of pain and illness behaviour has been
added generally throughout the text, particularly
in Chapters 2, 3 and 11. More minor alterations to
the chapters on the temporomandibular joint,
upper cervical spine, shoulder, pelvis and knee
have been undertaken on the advice of external
reviewers.
We hope that readers will find this updated
text a useful resource for their everyday clinical
practice.
Brighton 2001
icola J Petty
Ann P Moore
MMACP for advice on the shoulder chapter;
Jenny McConnell BAppSei(Phty) GradDipManip
Ther MBiomedEng for input on the patellofemoral
joint; Sarah Mee MCSP SRI' for the chapter on the
hand; Alison Middleditch MCSP SRI' MMACP for
input into the upper cervical spine and temporomandibular
joint chapters; and Kate Springett PhD
FChS DPodM for input into the foot and ankle
chapter. TIlanks are also given to Maria Dorey,
Beinhard Hass, Stuart Hide, Fiona Jones, Desley
Kettle and Jenny Thompson for their comments in
the final stages of production.
The authors would once again like to thank
Bob Seago for taking yet more photographs for
the second edition and to Zoe Phipps for acting
as a model for the photographs.
Preface to the first edition
This text flows from the authors' experiences of
teaching, at both undergraduate and postgraduate
levels, at Coventry University and the
University of Brighton. It is the authors' firm
belief that excellence in the treatment and management
of neuromusculoskeletal dysfunction
can only be obtained as a result of the application
of a logical, systematic, careful and intellectual
examination and assessment strategy.
The work began some years ago with a collection
of handouts used for teaching purposes;
these were subsequently compiled into a manual
for undergraduate students and also became
popular with qualified practitioners. The development
of the present text was prompted by an
observation that students of manual therapy,
both undergraduates and postgraduates, find
difficulty in collating the various and diverse
philosophies of manual and orthopaedic thera-
ACKNOWLEDGEMENTS
First and foremost the authors warmly acknowledge
the underpinning and pioneering work of
all those who have contributed to the development
and knowledge base of the field of manual
therapy which has provided the basis for this
textbook, and who have been an inspiration to
manual therapists and students of manual
therapy worldwide. In particular we acknowledge
the work of David Butler, James Cyriax,
Brian Edwards, Robert Elvey, Gregory Grieve,
Vladimir Janda, Gwen Jull, Carolyn Richardson,
pies into a cohesive and meaningful whole. Part
of this difficulty is due to the fact that currently
there is no single text that brings together the
concepts of joint, nerve and muscle tissue examination.
It was not, therefore, the intention of the
authors to try to create a new system of examination
for the neuromusculoskeletal system but
rather to bring together the concepts already in
existence, which are based on the excellent work
of authors who have already been acknowledged
in and throughout this text. It is hoped that this
text will go some way towards illuminating the
seemingly endless dark tunnel that all students
find themselves in whilst attempting to develop
skills in the science and art of neuromusculoskeletal
management.
Brighton 1997
icola J Petty
Ann P Moore
Freddy Kaltenborn, Diane Lee, Jenny McConnell,
Robin McKenzie, Geoffrey Maitland and Brian
Mulligan.
The authors would like to thank the following
who have read and commented on sample chapters
in the early stages of manuscript preparation:
Simon Ashton, who was an undergraduate
BSc(Hons) student of phYSiotherapy, University of
Brighton; Nigel Haddock BSc(Hons) MCSP, a
University of Brighton graduate; Sally York
GradDipPhys MCSP, private practitioner, Kent;
Gwen Jull MPhty GradDipManipTher FACP,
Associate Professor, Department of Physiotherapy,
Queensland University, Australia.
We are very grateful to the following for their
input in the later stages of the manuscript preparation:
Helen Fiddler MSc MCSP, a colleague,
for her advice on aspects of muscle physiology
and cardiorespiratory function; Nicola Becvar
and Paul Vipond, second-year undergraduate
physiotherapy students, for giving up their time
to be photographed; Bob Seago, media services
at the University of Brighton, for his photographic
skills; Joyce Homan for helping to proofread
the final draft of the manuscript.
We would like to acknowledge the financial
support of the University of Brighton, Faculty
of Health (Educational Development Unit fund-
PREFACE TO THE FIRST EDITION xIII
ing), which contributed to time availability for
the production of the final manuscript.
We are indebted to our colleague Lynne
Caladine MSc MCSP DipTP, who courageously
read and commented on the final draft of the
manuscript.
We would like to thank all our colleagues in
the Department of Occupational Therapy and
Physiotherapy for their encouragement, moral
support and willingness to take on extra work
from the authors to allow them time to produce
the manuscript.
Finally to Julia Ross for her encouragement
and support while the book was being written.
Glossary of terms
Accessory movement Any joint movement that
cannot be performed actively but that can be
performed by an external force, for example
anteroposterior glide, medial glide, lateral
glide.
Asterisks The main findings from the subjective
and physical examination.
End􀂍range resistance The resistance that occurs
towards the end of the range of physiological
or accessory movement.
Movement diagram A method of recording
physiological or accessory joint movement in
terms of range, resistance to movement, pain
and muscle spasm.
PAIVMs Passive accessory intervertebral
movements.
Physiological movement Any movel'nent that
can be performed actively, for example
flexion, extension, abduction, adduction,
medial or lateral rotation of any jOint.
PPIVMs Passive physiological intervertebral
rnovernents.
Through-range resistance The resistance felt
during passive, phYSiological or accessory
range of movement.
Introduction
The aim of this text is to present to the reader a
unified approach to the examination and assessment
of neuromusculoskeletal dysfunction, taking
into account established and emerging
concepts of neuromusculoskeletal management
by therapists such as Butler, Cyriax, Edwards,
Elvey, Grieve, jull, Kaltenborn, McConnell,
McKenzie, Maitland, Mulligan, Richardson,
Sahrmann and Stoddard, and the newly emergent
supporting research.
The art of manual therapy is not new. Ancient
civilizations used massage and joint and soft
tissue mobilization techniques, both manual and
mechanical, as healing arts. Indeed, the first
mention of a professor of physiotherapy dates
back to AD 585, when one was appointed under
the Sui dynasty in China. Hippocrates practised
the use of both manipulation and traction, and
since this time it has been tried and tested over
many centuries, although it has never before
reached the levels of popularity reported during
the last six decades.
Dr j. B. MenneU's book Physicn! frenflllellf by
movement, IIlnllip"!ntioll nlld mnssoge (1917)
appeared more than 80 years ago and from this
ti.me training in careful manipulative techniques
was illtroduced into the undergraduate training
of physiotherapists. In the early 1950s, a physical
medicine consultant, Dr j. Cyriax, devised a system
of assessing and diagnosing disorders of the
moving parts of the body, which hitherto had for
so long been neglected by orthodox medicine. By
this means, he sought to achieve a precise diagnosis
in disorders of the radiotranslucent moving
2 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
tissues and to teach this method and subsequent
treatment to physiotherapists - the practitioners
with the greatest working knowledge of applied
anatomy and hands-on techniques. During tl,e
years 1955-58, Mr Gregory Grieve, now well known
in the field of manipulation, familiarized himself
with the Cyriax method of examination and treatment.
This he continued to do while training as a
teacher of physiotherapy (1961-{i3) and during
this time first met Mr Geoffrey Maitland, who
visited St Thomas' Hospital observing the clinical
methods. Geoffrey Maitland (1986, 1991) is widely
regarded as one of the most important original
contributors to the method of systematic examination
and treatment of neuromusculoskeletal disorders
by mobilization/manipulation techniques.
With roots in the Maitland concept, other concepts
have grown and flourished in recent years,
advanced by a number of well known therapists,
including Butler ( 1991), Cyriax (1982), Edwards
(1999), Elvey (1985), Janda (1994), Jull & Janda
(1987), Jull & Richardson (1994), Kaltenborn
(1989, 1993), Lee (1989), McConnell (1996),
McKenzie (1981, 1990), Mulligan (1995),
Sahrmann (2001), Travell & Simons (1983) and
White & Sahrmann ( 1994).
Butler and Elvey have expanded the area of
examination and treahllent of the nervous system;
Cyriax's techniques for joint and soft tissue
diagnosis, examination and treatment have done
much to further our understanding of joint and
soft tissue dysfunction; Edwards has elaborated
on the examination of accessory and physiological
joint movements; Janda, Jull, Richardson,
White and Sahrmann have been instrumental in
the recent explosion of interest in new methods
of examination of muscle function; Kaltenborn
has provided alternative methods of joint examination
and treatment; Lee has further developed
the examination of the pelvis; McConnell stands
out as one of the few manual therapists who has
taken a specific interest in peripheral joints and,
in particular, has provided a system for examination
of the patellofemoral joint; McKenzie has
provided a method of examination for spinal
regions with an emphaSiS on a hands-off
approach to treatment; Mulligan has taken the
concept of accessory movements and c01l1bined
them with physiological movements in his concept
of mobilization with movement; and Travell
& Simons have documented the diagnosis and
treatment of trigger points. These are just a few
of the many therapists who are expanding and
evolving the examination and assessment of
joints, tnuscles and nervous tissue. For those
interested in the management of neuromusculoskeletal
dysfunction, these are exciting times
as methods of examination and treatment, and
the research to support them, continue to be
developed.
The various concepts and philosophies discussed
above have already been fully and extenSively
described in a number of texts and the
reader seriously wishing to learn more about
manual therapy is directed to those publications.
The aim of this text is to bring together the
important elements of each of these concepts into
one textbook.
The objectives of this text are to enable the
reader to:
• Identify possible causes of
neuromusculoskeletal dysfunction in each
region covered by the text
• Carry out a full subjective examination for
each neuromusculoskeletal region in order to:
- fully identify, describe and record
pain/symptomatic areas
- understand the behaviour and relationship
of symptoms and their implications
- be familiar with, and understand, the
implications of responses to special
questions relating to each region
- conduct a full investigation into the history
of the patient's present condition and past
medical history
- evaluate the subjective examination and
plan a physical examination based on the
subjective findings
• Carry out a full and appropriate physical
examination for each neuromusculoskeletal
region, to include the following:
observation
joint tests
muscle tests
neurological tests
- special tests
- functional tests
- palpation and accessory movements
and to understand the implications of both
positive and negative test results
• Evaluate the physical tests in the light of the
subjective findings and plan a management
programme.
In writing this book, the authors have assumed
that the reader has detailed knowledge of the
relevant anatomy, biomechanics and phYSiology,
as well as a knowledge of pathologies that contribute
to neuromusculoskeletal dysfunction.
Readers are also assumed to have acquired the
fundamental skills of examination; for example,
they should be familiar with measuring joint
movement and muscle strength.
The reader is introduced to the concept of subjective
examination and physical examination in
Chapters 2 and 3. In each subsequent chapter, a
separate region is dealt with in detail, beginning
with the temporomandibular joint and leading
into the upper cervical spine, general cervical
spine, thoracic spine, shoulder, elbow, wrist and
hand, and then the lumbar spine, pelvis, hip,
knee, ankle and foot. It is not anticipated that the
entire text will be read at one sitting but rather
that it will be used as a working manual, the
REFERENCES
Butler D 5 1991 Mobilisation of the nervous system.
Churchill Livingstone. Melbourne
Cyriax J 1982 Textbook of orthopaedic medicine - diagnosis
of soh tissue lesions, 8th edn. Bailliere Tindall, London
Edwards Be 1999 Manual of combined movements: their
use in the examination and treatment of mechanical
vertebral column disorders, 2nd oon. Butterworth·
Heinemann, Oxford
Elvey R L 1985 Brachial plexus tension tests and the
patho.matomical origin of arm pain. In: Glasgow E F,
Twomey L T, Scull E R, Kleynhans A M, Idczak R M (eds)
Aspects of manipulative therapy, 2nd oon. Churchill
Livingstone, Melbourne, ch 17, p 116
Janda V 1994 Muscles and motor control in cervicogenic
disorders: assessment and management. In: Grant R (ed)
Physical therapy of the cervical and thoracic spine, 2nd
edn. Churchill LiVingstone, Edinburgh, ch 10, P 195
Jull G A, Janda V 1987 Muscles and motor control in low
back pain: assessment and management. In: Twomey L T,
Taylor J R (eds) Physical therapy of the low back. Churchill
Livingstone, Edinburgh, ch 10, p 253
INTRODUCTION 3
reader dipping into regional chapters as appropriate.
However, the reader is encouraged and
advised to read Chapters 2 and 3 in detail, which
explain fully the concept of subjective and physical
examination, before attempting to read other
chapters .
When attempting new examination skills, the
reader is advised to work systematically through
each relevant chapter, all of which are set out in
the same format but with specific reference to
details for the region being addressed. Illustrations
are used extensively to help the reader to
picture the techniques described. The authors
recommend that students and clinicians use this
text in combination with taught components of
an undergraduate or postgraduate programme.
During the subjective part of the examination,
it is wise to remember a statement relating to
communication and quoted by Maitland (1986):
J k"ow that you believe yotl tl1lderstaml what YOll think 1
said, bllt 1 am flot SlIre YOIl realize that what YOIl heard is
flat what f memll.
This is an important message for all clinicians
and would-be clinicians. In addition, it is wise
to remember the role that patients have in the
examination and the clinical reasoning process
and that in reality they are the best teachers
of all.
Jull G A, Richardson C A 1994 Rehabilitation of active
stabilization of the lumbar spine. In: Twomey L T,
Taylor J R (oos) Physical therapy of the low back, 2nd edn.
Churchill Livingstone, Edinburgh, eh 9, p 251
Kaltenborn F M 1989 Manual mobilization of the extremity
joints examination, 4th edn. Olaf Norlis Bokhandel,
Oslo
Kaltenborn F M 1993 The spine: basic evaluation and
mobilization techniques, 2nd edll. Olaf orlis Bokhandel.
Oslo
Lee 0 1989 The pelvic girdle. Churchill Livingstone,
Edinburgh
McConnell J 1996 Management of patellofemoral problems.
Manual Therapy 1(2): 60-66
McKenzie R A 1981 The lumbar spine mechanical diagnosis
and therapy. Spinal Publications, New Zealand
McKenzie R A 1990 The cervical and thoracic spine
mechanical diagnosis and therapy. Spinal Publications,
New Zealand
Maitland G 0 1986 Vertebral manipulation, 5th OOn.
Butten.'Iorths, London
4 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Maitland G 01991 Peripheral manipulation, 3rd edn.
Butt'erworths, London
Mennell J B 1917 Physical treatment by movement,
manipulation and massage. Churchill, London
Mulligan B R 1995 Manual therapy 'nags', 'snags', 'MWMs'
etc., 3 rd edn. Plant View Services, New Zealand
Sahrmann 5 2001 Diagnosis and treatment of movement
impairment syndromes. Churchil] Livingstone,
Edinburgh
Travell J G, Simons 0 G 1983 Myofascial pain and
dysfunction: the trigger point manual. Williams & Wilkins,
Baltimore, MD
White 5 C, Sahrmann 5 A 1994 A movement system balance
approach to musculoskeletal pain. In: Grant R (ed)
Physical therapy of the cervical and thoracic spine,
2nd edn. Churchill Livingstone, Edinburgh, eh 16, p339
CHAPTER CONTENTS
Introduction 5
The subjective examination step by step 8
Body chart 8
Behaviour of symptoms 1 5
Special quesllons 19
Hlsto!), 01 the present condition (HPC) 2t
Past medical hlsto!), (PM H) 21
Social and tamlly histo!), (SH, FH) 21
Plan of the physical examination 23
Appendix 1 : Case scenarios 23
Appendix 2: Counterfeit clinical presentations 30
Subjective examination
INTRODUCTION
This chapter and Chapter 3 cover the general principles
and procedures of examination of the neuro­
musculoskeletal system. nus chapter is concerned
with the subjective examination, during which
information is gathered from the patient and
from their medical notes, while Chapter 3
covers the objective or physical examination. This
exanunation system can be adapted to fulfil the
examination requirements for people with neuromusculoskeletal
problems in various clinical settings
- for instance, it might be used in cold
orthopaedic and rhellmatology ward settings, in
gymnasia, e.g. when dealing with children and
adolescents with postural problems, as well as in
outpatient departments.
It is very difficult to determine the exact
pathology of conditions involving the neuromusculoskeletal
system, since for many there are no
clear-cut diagnostic tests available. In the lumbar
spine, for example, a patient who presents with a
set of signs and symptoms that indicate a nerve
root irritation may have one of six possible diagnoses
confirmed at surgery; conversely, a patient
with a confirmed diagnosis at surgery may have
had one of many different sets of signs and
symptoms (Macnab 1971). This difficulty led
Maitland (1 986) to develop the concept of the
'permeable brick wall', which involves a twocompartment
model of reasoning (Fig. 2 . 1 ). It
clearly acknowledges the separation of the clinical
presentation and the theoretical knowledge
5
6 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Theoretical/speculative
Anatomy
Physiology
Biomechanics
Pathology
Known
Thought known
Unknown
Speculation
Hypothesis
Diagnostic
litle
"
II
II
II
"
"
"
"
"
"
"
"
"
"
II
Chnlcal presentatlonl
non-speculative
History
Symptoms
Signs
Figure 2.1 The permeable brick wall. (Redrawn from Maitland 1 986, with permission.)
that could underpin a diagnosis. The wall is
permeable to allow for the fact that some clinical
presentations will match the 'textbook' diagnosis,
but the bricks of the wall acknowledge that
other patients will not fit a known diagnosis. In
either case, the clinician manages the patient
according to the clinical presentation rather than
the diagnosis. In addition, the permeability of the
brick wall allows for modification of the diagnosis
as more facts become known.
By the end of the subjective examination the
clinician needs to decide Oones 1 994):
• the source of the symptoms and/ or
dysfunction, i.e. the structure(s) at fault
• what factors are contributing to the condition,
e.g. environmental, behavioural, emotional,
physical or biomechanical
• whether there are any precautions or
contraindications to the physical examjnation
• the prognosis of the condition - this can be
affected by factors such as the stage and extent
of the injury as well as the patient's
expectation, personality and life-style
• how best to manage the patient's condition.
Information from the subjective examination
can often give clues as to the most appropriate
treatment; for instance, a movement which eases
the pain may be adapted as a treatment
technique.
The accuracy of the information gained in the
subjective examination depends to a large extent
on the quality of the communication between the
clinician and patient. Clear communication is
diffjcult to achieve and some of the errors that
can occur during a question and answer are
shown in Figure 2.2. The clinician needs to speak
slowly and deliberately, keep questions short
and ask only one question at a time (Maitland
1986). For further details, the reader is directed to
an excellent chapter on interviewing skills by
Maitland ( 1986).
The usefulness of the information gained in
the subjective examination depends to a large
extent on the clinician understanding the relevance
and pertinence of all the questions asked.
This chapter aims to give this background on the
questions asked, so that clinicians are able to
question effectively and obtain a wealth of useful
information on which to base the physical
examination.
The most common symptom allied to neuromusculoskeletal
dysfunction is pain. Pain is a
subjective phenomenon and is different for each
individual. It is therefore difficult to estimate the
extent of another's psychological and emotional
experiences of pain. Pain is a complex experience
and includes many dimensions, as shown in
Figure 2. 3 (McGuire 1995).
In the examination described in this chapter
and the next, all these dimensions are investigated,
giving the clinician a fairly comprehensive
understanding of the patient's pain experience.
This is considered important by Maitland (1986)
in order to gain the most from the subjective
examination.
This chapter outlines a very detailed subjective
examination, which will not be required for
every patient. Not every question will need to be
asked to the same depth - the clinician must
tailor the examination to the patient. An illuminating
text on the theoretical concepts underlying
1st process
THE REASONING BEHINO THE
aUeSTION WHICH IS TO BE ASKeD
The fundamental error that lies behind much poor
Questlorllng IS havmg insufficient theoretical and
clinical knowledge to gUIde the prt(:ise information
reQUlrt(j from a Pllitnt
2nd process
WORDING THE aueSTION
'4) Error 􀀖j
The error occurs when the questIon inked does not
clearly ask what the therapISt nUds to know
Jrd process
HEARING AND UNDERSTANDING
THE QUESTIONS
/0
Error 'ifI , ,
V
Two errors can occur at this stage:
1. A word or words may be used which the
patient does not understand
2. What the patltnt hears may be blued away
from what he should have heard
4th process
CONSIDERING THE REPLY
BecikJ5e the patient has particular thOUghts about
his complaint, he may assume different reasons
for the question from those of the therapist.
Also hiS memory of facts which are involved in
answering the question may be Incomplete or
inaccurate
SUBJECTIVE EXAMINATION 7
5th proass
PUTTING THE ANSWER INTO WORDS
'4) Eno' 7 To translate thouqhts relatea to answering the question
into words is even more difficult for the palient
than for therapist because of the comPlra·
tlve lack of experience
6th proc􀀮u
HEARING AND UNDERSTANDING THE WORDS
USED IN THE PATIENT'S ANSWER I􀀋' '') '"
Error
Patients may use descriptive words which are difficult
to understand, particularly when describing bizarre
symptoms, The error lies in assuming the meaning of
them ralher than asking quesllons to be certain of
the meaning
7th process
INTERPRETING THE A.NSWER Eno, •• Because the therapist does not have the patient's
symptoms herself, she has 10 interpret the answer in
the light of her own experiences (including her
expel'lences with other Pltients). The interpretation
may be wrong if the answer is not clarified
8(h praceu
RELATING THE ANSWER TO THE QUESTION
1 f the therapist accepts the patient's answer
as providing all the information when in fact it does
not, the subsequent eltaminuion will be open to
ma,ar errors
9(h praens
DETERMINING THE NEXT QUESTION
Eno' i_ ff there was insufficient knowledge on which to base the
first question, irrespective of the accuracy of the
patient's answer, the basis for the second question must
also be in error
If there has been no error in Iny of the preceding eight
processes there should be no error in this 9th process
Figure 2,2 Errors in verbal communication, (Redrawn from Maitland 1986, with permission.)
8 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Physiological
Location
Onset
Duration
Aetiology
Syndrome
Cognitive
Sensory
Intensity
Quahty
Pattern
PAIN
Behavioural
Affective
Mood state
Anxiety
Depression
Well-being
Sociocultural-ethnocultural
Meaning of pain
View of self
Coping skills and strategies
PrevIous treatment
Attitudes and beliefs
Factors Influencing pam
Communication
Interpersonal interaction
Physical activity
Family and social life
Work and home responSibilities
Recreation and leisure
EnVIronmental factors
Attitudes and beliefs
Pam behaviours
Medications
Interventions Social Influences
Sleep
Figure 2.3 The dimensions 01 pain. (Redrawn from McGuire D 8 The multiple dimensions of cancer pain: a
framework for assessment and management. In: McGuire 0 B, Yarbro C H, Ferrell B R (eds) Cancer pain
management. 2nd edn, 1 995. Jones and Bartlett Publishers, Sudbury, MA. WWW.jboub com Reprinted with
permission.)
the subjective and physical examination can be
found in Refshauge & Cass ( 1 995).
The most important findings in the subjective
examination are highlighted with asterisks (*) for
easy reference and are used at subsequent treatment
sessions to evaluate the effects of treatment
intervention.
The aim of the subjective examination is to
obtain sufficient information about the patient's
symptoms so as to be able to plan an efficient,
effective and safe physical examination. A summary
of the subjective examination is shown in
Table 2.1.
T H E SUBJECTIVE EXAMINATION
STEP BY STEP
Body chart
A body chart (Fig. 2.4) is a useful and quick way
of recording information about the area and type
of symptoms the patient is experiencing, and its
completion is usually the first step in the subjec-
Table 2.1 Summary of subjective examination
Area of examination Information gained
Body chart Type and area of current
symptoms, depth, quality, intensity.
abnormal sensation, relationship of
symptoms
Behaviour of symptoms Aggravating factors, easing factors,
severity and irritability of the
condition, 24-hour behaviour, daily
activities, stage of the condition
Special questions General health. drugs, steroids,
anticoagulants, recent unexplained
weight loss, rheumatoid arthritis,
spinal cord or cauda equina
symptoms, dizziness. recent X-rays
History of present History of each symptomatic area -
condition how and when it started, how it has
changed
Past medical history
Social and family
history
Relevant medical history, previous
attacks. effect of previous
treatment
Age and gender. home and work
situation, dependants and leisure
activities
.,
\ ; \ I
SUBJECTIVE EXAMINATION 9
'.
Figure 2.4 Body chart. (Redrawn from Grieve 1991, with permission.)
tive examination of the patient. Various elements
are recorded as follows.
Area of current symptoms
The exact area of the symptoms can be mapped
out. A clear demarcation between areas of pain,
paraesthesia, stiffness or weakness should be
made so as to help establish different symptoms
and their relationship to each other (see Figs 2.13
and 2.14 in the appendix to this chapter).
The area of the symptoms does not always
identify the structure at fault, since symptoms
can be felt in one area but emanate from a distant
area; for example, pain felt in the elbow may be
locally produced or may be due to pathology in
the cervical spine. When the manifestation of
symptoms is distant to the pathological tissue
this is known as referred pain. The more central
the lesion, the more extensive is the possible area
of referral; for example, the zygapophyseal joints
in the lumbar spine can refer symptoms to the
foot (Mooney & Robertson 1976), the hip jOint
classically refers symptoms as far as the knee,
and the joints of the foot tend to produce local
symptoms around the jOint.
Two explanations have been given for the phenomenon
of referred pain (Taylor et aI1984). The
1 0 NEUROMUSCULOSKELETAL EXAMINATION A N D ASSESSMENT
first is that axons in peripheral sensory nerves
supplying different structures have the same cell
body in the dorsal root ganglion (Fig. 2.5). The
econd explanation is that separate peripheral
sensory nerves converge into one cell in the dorsal
horn of the spinal cord (Fig. 2.6). The clinician
needs to be aware that symptoms can be referred
in this way from the spine to the periphery; from
the periphery more peripherally or centrally;
from the viscera to the spine; or from the spine to
the viscera.
The areas of referred symptoms from the viscera
are shown in Figure 2.7 (Lindsay et aI1991).
In addition, the uterus is capable of referring
symptoms to the TlO-L2 and 52-55 regions (van
Cranenburgh 1989). The mechanism is explained
in Figure 2.8, whereby the visceral afferents converge
upon the same posterior horn cells in the
spinal cord as the somatic efferents. The patient
'projects' pain from the viscera to the area supplied
by corresponding somatic afferent fibres.
Referral of symptoms to the viscera is usually
from the vertebral column rather than the periphery
(Maitland 1991). Symptoms referred from
the viscera can sometimes be distinguished from
those originating in the neuromusculoskeletal
system, as the symptoms are not usually aggravated
by activity or relieved by rest.
Nerve cell In
spmal cord
~
The clinician ascertains which is the worst
symptom (if more than one area). This can help
to focus the examination to the most important
area and may help to prioritize treatment.
In addition, the patient is asked where slhe
feels the symptoms are coming from: 'If you had
to put your finger on one spot where you feel it is
coming from, where would you put it?' When
the patient is able to do this, it can help to pinpoint
the source of the symptoms. Care is needed,
however, as it may simply be an area of pain
referral.
Areas relevant to the region being examined
All other areas relevant to the region being examined
should be checked for symptoms. The unaffected
areas are marked with ticks (,I) on the
body chart. A patient may only describe the
worst symptom, not thinking that it is important
to mention an area of slight discomfort - but this
may be highly relevant to the understanding of
the patien􀄚s condition. It is important to check
for pain or stiffness or any other symptom in the
relevant spinal region. The cervical and thoracic
spinal segments can, for example, give rise to
referred symptoms in the upper limb; and the
lumbar spine and sacroiliac joints can give rise to
/
Arm ---\-
Figure 2.5 Mechanism of referred pain. Peripheral sensory nerves
supplying different structures have the same cell body. (From Wells et al
1994, with permission.)
SUBJECTIVE EXAMINATION 11
Ascending
aorta
(T2 -T3)
Appendix ...
(T11-T12)
Prostate
(52-54)
Nerve cell In
spmal cord
Mm-----\,
Figure 2.6 Mechanism of referred pain. Separate peripheral
sensory nerves converge onto one cell in the dorsal horn of the
spinal cord. (From Wells et a11994. with permission.)
Heart
(T1 -T3)
, .. Pancreas ..
(Tl -T8) --/-- Testis
(T10-T11)
Ureter
(T10-l1)
Colon
(T11 -l1)
Ovary (V-)
(T10-T11)
Figure 2.7 Siles of referred pain from the viscera. (From Lindsay et a11991, with permission .)
\ " Kidney .... '\-- (T10-l1)
Cervix/vagina (II)
(52-54)
12 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Hollow viscus
Figure 2.6 The mechanism of referred pain from the
viscera. (From Lindsay el a11991, with permission.)
referred symptoms in the lower limb. Quite frequently,
patients can present with classical signs
and symptoms of a peripheral condition such as
tennis elbow, but on examination the symptoms
are found to emanate from the spine, which is
confirrned when palpation or other diagnostic
tests of the spine relieve or aggravate the
symptoms.
A patient may demonstrate signs of illness
behaviour, also called non-organic signs, in the
way they report symptoms of pain and record
them on a body chart. Pain may be widespread
Box 2.1 Illness behaviours (Keefe & Block 1982,
Waddell 1998)
Pain drawing
Pain adjectives and description
Non-anatomic or behavioural descriptions of
symptoms
Non-organic or behavioural signs
Overt pain behaviours:
- Guarding - abnormally stiff, interrupted or rigid
movement while moving from one position to
another
- Bracing - a stationary position in which a fully
extended limb supports and maintains an abnormal
distribution of weight
- Rubbing - any contact between hand and back, i.e.
touching, rubbing or holding the painful area
- Grimacing - obvious facial expression of pain that
may include furrowed brow, narrowed eyes ,
tightened lips, corners of mouth pulled back and
clenched teeth
Sighing - obvious exaggerated exhalation of air,
usually accompanied by the shoulders first rising and
then falling; the cheeks may be expanded first
Use of walking aids
Down-time
Help with personal care
or follow a non-anatomical distribution. The
drawing may be very dense and excessively
detailed and may spread outside the outline of
the body. For an overview of illness behaviours
see Box 2.1. The clinician needs to apply the criteria
for illness behaviour with care and be aware
of the following warnings (Waddell 1998):
• Isolated behavioural symptoms mean nothing;
only multiple findings are relevant
• Illness behaviour does not explain the cause of
the patient's pain, nor does it suggest that the
patient has no 'real' pain
• Illness behaviour does not mean that there is
no physical disease
• Illness behaviour is not in itself a diagnosis
• Illness behaviour does not mean that the
patient is faking or malingering
• Illness behaviour is clinically relevant when it
is out of proportion with the physical
problem, e.g. if a patient behaves as if they
have serious pathology without such
pathology being present. Obviously the
Box 2.2 Characteristics 01 pain mechanisms (Woolf
1994, Fields 1995, Gifford 1996)
Nociceptive pain
Tends to be localized
Predictable response, e.g. to stretch, compression or
movement
Responds to simple painkillers and antiinflammatories
Improves with appropriate passive treatment
Peripheral neurogenic pain
Anatomical distribution (spinal segment or
peripheral/cranial nerve)
Burning, sharp, shooting, like electric shock
Allodynia, dysaesthesia, paraesthesia, possibly a
mixture of these
Provoked by nerve stretc h, compression, or palpation
Possible associated muscle weakness and
autonomic changes
Poor response to simple painkillers and antiinflammatories
Response to passive treatments varies
Central sensitization
Widespread, non-anatomical distribution
Hyperalgesia, allodynia
Inconsistent response to stimuli and tests
Pain seems to have 'a mind of its own'
Drug treatment ineffective
Unpredictable or no response to passive treatments
severity of this behaviour can be established
only if the exact nature of the physical
problem is known; therefore a thorough and
careful examination is essential.
The mechanism of pain production can be
broadly categorized into nociceptive, peripheral
neurogenic and central sensitization. The characteristics
for each mechanism are given in Box 2.2.
Quality of the pain
The clinician can ask the patient: 'How would
you describe the pain?' The quality of the pain
may give a clue as to the anatomical structure at
fault (Table 2.2), although this can often be misleading
(Dalton & Jull 1989, Austen 1991). The
adjective the patient uses to describe their pain
may be of an emotional nature, such as tearing,
Table 2.2 Type 01 pain though l lo be produced by various
structures (Mills at a11989, Magee 1992)
Pain
Sharp and burning, distributed along specific
nerves
Deep, boring and poorly localized
Localized, but referred pain to other areas
Diffuse, aching and poorly localized, often
referred to other areas
Dull aching, poorly localized and referred to
other areas
No
A PiI·n
B
0
No
p,,,n
M,1d
PO'"
2
I
J
Structure
Nerve
Bone
Joint
Vascular
Muscle
I
4 5
Moderate
PO'"
SUBJECTIVE EXAMINATION 13
miserable or terrifying. This suggests that a
behavioural component may play a role in this
patient's problem.
Intensity of pain
The intensity of pain can be measured by the use
of a descriptive, numerical or visual analogue
rating scale (Hinnant 1994). These are outlined in
Figure 2.9. To complete the descriptive and
numerical rating scales, the patient is asked to
indicate the description or number which best
describes the intensity of their pain. For the
visual analogue scale, the patient is asked to
mark on a 10 em line the point that best represents
the intensity of their pain, where 0 denotes
'no pain' and 10 denotes 'pain as bad as it could
possibly be'. The distance of the mark from the
left end of the line is measured in millimetres
and then becomes a numerical value, which can
be recorded. The Present Pain Intensity, which is
part of the McGill Pain Questionnaire (Melzack
& Wall 1996) measures intensity of pain by asking
the patient to choose the word listed below
that best describes the intensity of their pain
now/ at its worst and at its least:
1
2
3
4
5
I
6
Mild
Discomforting
Distressing
Horrible
Excruciating.
Seve,.
po,n
I
8
Ve",
severe
P'''"
I
9
I
10
Worst
poSSible
pain
Pain as bad as
Worst
poSSible
c IntenSity of pam It could poss.blV be
Figure 2.9 Pain intensity rating scales. A Simple descriptive pain intensity scale. B 1-10 numerical pain intensity scale. C
Visual analogue scale. (From Hinnant 0 W 1994 Psychological evaluation and testing. In: Tollison C 0 (ed) Handbook of pain
management, 2nd edn. C Williams & Wilkins.)
14 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
For comparison, the patient is also asked to
score their worst ever toothache, headache and
stomach ache. Only the descriptors are shown to
the patient, to ensure that they do not choose a
numerical value to match their pain. The numbers
are strictly for recording purposes only.
It is important to realize that the various pain
scales are not interchangeable. Someone who
marks their pain at 80 mm on the Visual Analogue
Scale will not necessarily give the pain a description
of 8 out of 10 on the Numerical Scale, or a
Present Pain Intensity of 4. A score can only be
compared with another score on the same scale.
The intensity of pain score can be repeated several
times a day or during a period of treatment, thereby
developing a pain diary. This can then be used
to construct a pain profile from whicl1 the behaviour
of pain or the effectiveness of a treatment
upon pain can be judged. This is particularly useful
with chronic pain sufferers, to determine pain
patterns and triggering factors.
Depth of pain
The clinician can ask: 'Is the pain deep down or is
it on the surface?' The depth of pain may give
some indication as to the structure at fault but,
like quality, this can be misleading (Austen
1991). Muscles are thought to produce deep pain
(Mense 1993), while joints tend to refer
superficially (Mooney & Robertson 1976).
Abnormal sensation
Areas of abnormal sensation are mapped out on
the body chart and include paraesthesia (abnormal
sensation), anaesthesia (complete loss of sensation),
hypoaesthesia (reduced touch sensation),
hyperaesthesia (heightened perception to touch),
allodynia (pain provoked by stimuli that are normally
innocuous), analgesia (absence of appreciation
of pain), hypalgesia (reduced appreciation of
pain) and hyperalgesia (increased sensitivity to
pain). Paraesthesia includes sensations of tingling,
pins and needles, swelling of a limb, tight bands
tied around part of the body and water trickling
over the skin.
The sensory changes listed above can be generated
anywhere along a peripheral or cranial nerve,
including the nerve root. A common cause is
ischaemia of the nerve, e.g. when part of the
brachial plexus is compressed by a cervical rib or
when a median nerve compression causes carpal
tunnel syndrome. A knowledge of the cutaneous
distribution of nerve roots (derma tomes), brachial
and lumbosacral plexuses and peripheral nerves
enables the clinician to distinguish the sensory loss
resulting from a root lesion from that resulting
from a peripheral nerve lesion. The cutaneous
nerve distribution and demlatome areas are
shown in Chapter 3 (Figs 3.18-3.21).
NeurogeniC symptoms may also have their origin
in the central nervous system. A spinal cord
lesion or stroke can cause a variety of sensory
changes and long-term pain can sensitize or
modify structures like the dorsal horn. Characteristics
of central neurogenic symptoms are
widespread non-anatomical distribution, change
for no apparent reason, lack of consistency in the
response to stimulation and passive treatment,
and resistance to drug treatment.
Constant or intermittent symptoms
The word 'constant' is used here to mean symptoms
whicl1 are felt unremittingly for 24 hours a
day; any relief of symptoms even for a few minutes
would mean that the symptoms were intermittent.
The frequency of intermittent symptoms
is important as there may be wide variations, from
symptoms being felt once a month to once an hour.
Specific details are useful at this stage, so that
progress can be clearly monitored at subsequent
treatment sessions. Constant pain which does not
vary is cl,aracteristic of malignancy. Constant pain
whicl1 varies in intensity is suggestive of inflammatory
or infective processes or may occur following
trauma for the first 20 days (McKenzie 1981)
because of chemical irritation. Intermittent pain is
suggestive of a mechanical disturbance such that
forces sufficient to stimulate free nerve endings are
producing pain whicl1 stops when the force is
removed (McKenzie 1981).
Relationship of symptoms
The relationship of symptomatic areas to each
other is a very important question as it helps to
establish links between symptoms and gives clues
as to the structure(s) at fault. For example, if posterior
leg pain is felt when back pain is made worse,
then it suggests that the leg pain and the back pain
are being produced by the same structure. If, on
the other hand, the symptoms occur separately, so
that the patient can have back pain without leg
pain and leg pain without back pain, then different
structures would be thought to be producing these
two symptoms.
This completes the information which can be
documented on the body chart. An example of a
completed body chart is shown in Figures 2.13
and 2.14 in the appendix to this chapter.
Behaviour of symptoms
The behaviour of symptoms provides a valuable
contribution to the subjective assessment of the
patient. It is used in the reassessment strategy to
give some indication as to the structure(s) at fault,
to give an indication of functional impairment and
to allow the therapist to come to a decision on the
severity (S), irritability (l) and nature (N) of the
condition. This gives valuable information as to
the ease/difficulty the therapist may have in
reproducing the patien􀁾s symptom(s), all indication
as to whether a full examination is going to be
possible, and lastly an indication as to the vigour
which may be required for effective treatment.
Aggravating and easing factors
Aggravating and easing factors are used in the
first instance to establish an idea of the severity,
irritability and nature of the problem, and the
behaviour of symptoms can be further assessed
by in-depth questioning as described below.
Aggravating factors. These are movements or
postures that produce or increase the patient's
symptoms. The exact movement or posture and
the time it takes to bring on the symptoms (or
make them worse) are established. These indicate
how difficult or easy it may be to reproduce
the patien􀁾s symptoms in the physical examination
and how irritable the condition is. For example,
symptoms that are felt after 2 hours of hard
physical exercise may well be harder to reproduce
than symptoms provoked by one single
SUBJECTIVE EXAMINATION 15
movement such as elbow flexion. The clinician
analyses in detail the aggravating movement or
posture in order to hypothesize what structures
are being stressed and thereby causing the
symptoms.
Aggravating factors are determined for each
symptomatic area. The effect of aggravating one
symptom on the other symptoms is established,
as this helps to confirm the relationship between
the symptoms. If different symptoms are aggravated
by the same position or movement, it suggests
that the symptoms are being produced by
the same structural dysfunction.
The clinician asks the patient about theoretically
known aggravating factors for structures that
could be a source of the symptoms, e.g. squatting
and going up and down stairs for suspected hip
and knee problems, and lifting the head to look
upwards for cervical spine problems. A list of
common aggravating factors for each joint and
for muscle and neurological tissue can be found
in Table 2.3. Some worked examples can be
found in Appendix 1 of this chapter.
Easing factors. These are movements or positions
that ease the patien􀁾s symptoms. As with the
aggravating factors, the exact movement or posture
and the time it takes to ease the symptoms are
established. This indicates how difficult or easy it
may be to relieve the patient's symptoms in the
physical examination and, more importantly, in
treatment, and gives an indication of irritability.
Symptoms that are readily eased may respond to
treatment more quickly than symptoms that are
not readily eased. The clinician analyses in detail
the easing movement or posture in order to
hypothesize which structure(s) are being released
from stress. This will indicate the structure(s) that
are causing the symptoms.
Again, easing factors are determined for each
symptomatic area. The effect of the easing of one
symptom on the other symptoms is established
as this helps to confirm the relationship between
symptoms. If different symptomatic areas ease
with the same position or movement, it suggests
that the symptoms are being produced by the
same structural dysfunction.
The clinician should ask the patient about
theoretically known easing factors for structures
that could be a source of their symptoms; for
16 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Table 2.3 Common aggravating factors - for each region or structure, examples 01 various functional activities and a basic
analysis of the activity are given
Temporomandibular joint
Shoulder
Elbow
Forearm
Wrist/hand
Hip
Functional activity
Yawning
Chewing
Talking
Tucking shirt in
Fastening bra
Lying on shoulder
Reaching up
Eating
Carrying
Gripping
Leaning on elbow
Turning key in a lock
T ypinglwriling
Gripping
Power gripping
Power gripping with twist
Turning a key
Leaning on hand
Squat
Walking
Analysis of the activity
Depression of mandible
Elevation/depression of mandible
Elevation/depression of mandible
Hand behind back
Hand behind back
Joint compression
Flexion
Flexion/extension
Distraction
Flexion/extension
Compression
Pronation/supination
Sustained extension
Extension
Extension
Ulnar deviation and pro/supination
Thumb adduction with supination
Compression
Flexion
Flexion/extension
Side·lying with painful hip uppermost
Stairs
Adduction and medial rotation
Flexion/extension
Knee
Foot and ankle
Cervical spine
Thoracic spine
Lumbar spine
Sacroiliac jOint
Muscular tissue
Nervous tissue
Squat
Walking
Stairs
Walking
Running
Reversing the car
Silting reading/writing
Reversing the car
Deep breath
Sitting
Standing/walking
Lifting/stooping
Standing on one leg
Turning over in bed
Getting out of bed
Walking
Flexion
Flexion/extension
Flexion/extension
Dorsiflexion/plantarflexion, inversion/eversion
Dorsiflexion/plantarflexion, inversion/eversion
Rotation
Sustained flexion
Rotation
Extension
Flexion
Extension
Flexion
Ipsilateral upward shear, contralateral
downward shear
Nutation/counternutation of sacrum
Nulationlcounternutation of sacrum
Nutationlcounternutation of sacrum
Contraction of muscle
Passive streich of muscle
Passive streich or compression of nervous
tissue
Headaches Stress, eye strain, noise, excessive
eating, drinking, smoking,
inadequate ventilation, odours
instance, crook lying for a painful lumbar spine
eases pain by reducing intradiscal pressure
(Nachemson 1992) and red uces the forces produced
by muscle activity OuIl 1986). However, if
the patient feels that they can only manage the
pain by lying down regularly for long periods
this may indicate possible illness behaviour.
Severity and irritability of symptoms
The severity and irritability of symptoms must
be determined in order to identify patients who
will not be able to tolerate a full physical examination
and also to establish guidelines concerning
the vigour of the examination strategy.
Generally speaking, the tests carried out in the
physical examination require the patient to move
and sustain positions which provoke symptoms.
Sometimes the intensity of the provoked symptoms
are too great for these positions to be
sustained, i.e. the patient's symptoms are severe.
At other times, the symptoms gradually increase
with each movement tested until eventually they
may become intolerable to the patient and the
examination may have to be stopped until the
symptoms subside; in this case the patient's symptoms
are said to be irritable. In order to examine
with competence, the clinician must know before
starting the physical examination whether the
patient's symptoms are severe and/or irritable so
that an appropriate examination is carried out in a
way that avoids unnecessary exacerbation.
The clinician asks about specific active physiological
movements such as knee fIexjon, cervical
rotation, etc., in order to assess subjectively the
severity and irritability of the patient's symptoms.
Severity of the symptoms. The severity of the
symptoms is the degree to which symptoms
restrict movement and/or function and is related
to the intensity of the symptoms. If a movement at
a certain point in range provokes pain and this
pain is so intense that the movement must immediately
be ceased, then the symptoms are defined
as severe. If the symptoms are severe then the
patient will not be able to tolerate overpressures,
and movements must be performed just short of or
just up to the first point of pain. If the intensity is
such that the patient is able to maintain or increase
a movement that provokes the symptoms, then the
symptoms are not considered to be severe and in
this case overpressures can be performed.
In order to determine the severity of the condition,
the clinician chooses an aggravating movement
and asks, for example when examining a
patient with symptoms emanating from the cervical
spine: 'When you turn your head around to
the left and you get your neck pain (or you get
more pain), can you stay in that position or do
you have to bring your head back straight away
because the pain is too severe?' If they are able to
stay in the position, the symptoms are considered
non-severe; if, however, they are unable to
maintain the position, the symptoms are deemed
to be severe.
SUBJECTIVE EXAMINATION 17
Irritability of the symptoms. The irritability of
the symptoms is the degree to which symptoms
increase and reduce with provocation. Using the
same aggravating movement as for severity, the
clinician finds out how long it takes for the
provoked symptom to ease. When a movement
is performed and pain, for example, is provoked
rapidly, and the provoked pain continues to be
present for a significant length of time, the symptoms
are said to be irritable. A significant length
of time would be anything more than 2-3 minutes,
since this period of rest would be required
each time symptoms were provoked during the
physical examination. If the symptoms appear
slowly and disappear as soon as the movement is
ceased, the symptoms are non-irritable.
Using the same example as above, the clinician
might ask: 'When you turn your head around to
the left and feel the sharp pain and then immediately
turn your head back, does that sharp pain
ease immediately or does it take a while to go?'
The clinician needs to make sure that the patient
has understood by asking: 'You mean that sharp
pain, that extra pain that was felt at the end of the
movement, takes 10 minutes to go?' If the pain
eases immediately, the symptoms are considered
to be non-irritable and all movements can be
examined. If the symptoms take a few minutes to
disappear then the symptoms are irritable and
the patient may not be able to tolerate all movements
as the symptoms will gradually get
worse. The clinician then has to prioritize
and plan, if necessary, to examine only a few
movements.
Occasionally, latent irritability may occur
where a rnovement or position may induce
symptoms that are delayed by some minutes and
often continue for a considerable length of time.
Careful management is required with these
patients to avoid unnecessary exacerbation of
their symptoms.
A patient's condition can be severe or irritable
or it may be both severe and irritable.
Twenty-four-hour behaviour of symptoms
Night symptoms. The following information
is gathered from the patient:
1 8 NEUROMUSCULOSKELETAL EXAMINATION A N D ASSESSMENT
• Does the patient have difficulty getting to
sleep because of the symptom(s)? Lying may
in some way alter the stress on the structure(s)
at fault and give rise to pain. For example,
weight-bearing joints such as the spine,
sacroiliac joints, hips, knees and ankles have
reduced compressive forces in lying compared
with upright postures.
• Which positions are most comfortable and
uncomfortable for the patient? The clinician
can then analyse these positions to help
confirm the possible structures at fault.
• Is the patient woken by symptoms, and, if so,
which symptoms and are they associated with
movement, e.g. turning over in bed?
• To what extent is the patient disturbed at
night:
how many nights in the past week
- how many times in any one night
- how long does it take to get back to sleep?
• It is useful to be as specific as possible as this
information can then be used at subsequent
attendances to determine the effect of
treatment on the condition.
• How many and what type of pillows are used
by the patient? For example, foam pillows are
often uncomfortable for patients with cervical
spi.ne symptoms because their size and nonmalleability
creates highly flexed or highly
side-flexed sleeping positions.
• Does the patient use a firm or soft mattress,
and has it recently been changed? Alteration
in sleeping posture caused by a new mattress
is sometimes sufficient to provoke spinal
symptoms.
Morning symptoms. What are the patient's
symptoms like in the morning immediately on
waking before movement and also after getting
up? Prolonged morning pain and stiffness which
improves minimally with movement suggests an
inflammatory process (Magee 1992). Minimal or
absent pain with gross stiffness in the morning is
associated with degenerative conditions such as
osteoarthrosis.
Evening symptoms. The patient's symptoms
at the beginning of the day should be compared
with those at the end of the day. Symptoms may
depend upon the patient's daily activity levels.
Pain that is aggravated by movement and eased
by rest generally indicates a mechanical problem
of the musculoskeletal system (Corrigan &
Maitland 1994). Pain that increases with activity
may be due to repeated mechanical stress, an
inflammatory process or degenerative process
Ou1l 1 986).
Function
The clinician ascertains how the symptoms vary
according to various daily activities, such as:
• Static and active postures, e.g. sitting,
standing, lying, bending, walking, running,
walking on uneven ground, up and down
stairs, washing, driving, lifting and digging,
etc. The clinician should find out if the patient
is left- or right-handed as there may be
increased stress on the dominant side.
• Work, sport and social activities. Note details
of training regime for any sports activities.
Detailed information on each of the above activities
is useful in order to determine the structure(s)
at fault and to identify clearly the functional
restrictions. This information can be used to determine
the aims of treatment and any advice that
may be required. The most notable functional
restrictions are highlighted with asterisks (0) and
then reassessed at subsequent treatment sessions
to evaluate treatment intervention.
Stage of the condition
Knowing whether the symptoms are getting
better, getting worse or remaining static gives an
indication as to the stage of the condition and
helps the clinician to determine the time for
recovery. Symptoms that are deteriorating will
tend to take longer to respond to treatment than
symptoms that are resolving.
If the patient has changed or abandoned activities
in response to their symptoms it is important
that this is not at the cost of overall function, particularly
if the symptoms are chronic or recurrent.
For example, temporary avoidance of some
activities can be an effective strategy to overcome
an injury but avoiding most activities for more
than a few days leads to a rapid decline in
function and engenders chronicity. Maladaptive
coping strategies can ea ily perpetuate the
patients' problem and compromise their treatment
(Harding & Williams 1 995, Shorland 1998).
Coping strategies include:
• Activity avoidance - disuse, lack of fihless,
strength and flexibility. May also lead to
withdrawal from social activities and interfere
with work.
• Underactivity /overactivity cycles (activity
avoidance on days with pain, very active on
days with less pain). Reduced activity
tolerance due to disuse on 'bad' days leads to
tissue overload on 'good' days. Over time
there is a gradual increase in pain and
decrease in activity.
• Long-term use of medication leads to sideeffects
such as constipation, ind igestion,
dr;owsiness. This will interfere with general
function and hinder recovery and the patient
will be drug-dependent.
SUBJECTIVE EXAMINATION 19
• Visiting a range of therapists and specialists in
the pursuit of a diagnosis or cure. The patient
is not willing to take control, not willing to
apply adaptive coping strategies.
Special questions
The clinician needs to determine the nature of
the patient's condition, differentiating between
benign neuromusculoskeletal conditions that are
suitable for manual therapy and systemic, neoplastic
or other non-neuromusculoskeletal conditions,
which are not suitable for treah11ent. It is
important that the clinician realizes that serious
conditions may masquerade as neuromusculoskeletal
conditions. This is discussed at length by
Grieve ( 1 994a) and a published paper by the
same author (Grieve 1994b) is reproduced in
Appendix 2 of this chapter. A number of questions
are asked to enable the clinician to establish
the nature of the patient's condition and to identify
any precautions or absolute contra indications
Table 2.4 Precautions and conlraindications to mobilization treatment to the spine (Grieve 1991)
Precautions
The presence of gross neurological signs - avoid treatment
which reduces the dimension of the intervertebral foramina on
the symptomatic side
Rheumatoid arthritis - avoid the cervical spine and treat only if
there is no acute inflammation
Osteoporosis - 40% of bone salts must be losl before
osteoporosis is evident on X-ray: ribs are especially vulnerable
Spondylolisthesis - pressure techniques should be applied
with care over the affected segment
Hypermobility
Pregnancy - pressure techniques can be used up to the sixth
month, and rotations up to the eighth month
Dizziness which is aggravated by neck rolation andlor
extension contraindicates rotation and/or extension
techniques in treatment - carefu l pressure techniques can be
applied
Previous malignant disease in other than spinal tissues need
not contraindicate mobilization for spinal jOint problems. The
possibility of metastases needs 10 be excluded
Polymyalgia rheumatica - this should be regarded as an
inflammatory arthritis
Contraindications
Malignancy involving the vertebral column
Cauda equina lesion producing disturbance of bladder and/or
bowel function
Signs and symptoms of spinal cord involvement; or
involvement of more than one spinal nerve root on one side, or
two adjacent roots in one lower limb only
Rheumatoid collagen necrosis of vertebral ligaments
Active inflammatory and infective arthritis
Bone disease of the spine
20 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
to further examination and application of treatment
techniques. Table 2.4 identifies the specific
precautions and cOlltraindications for manual
therapy to the vertebral column. No equivalent list
has been documented for the peripheral joints.
For all patients, the following information is
gathered.
General health. Ascertain the general health
of the patient, as poor general health can be suggestive
of various systemic disease processes.
The clinician should ask the patient about any
feelings of general malaise or fatigue, fever, nausea
or vomiting, stress, anxiety or depreSSion.
Feeling unwell or tired is common with neoplastic
disease (O'Connor & Currier 1992), while
malaise, lassitude and depression can be associated
with rheumatoid arthritis (Dickson &
Wright 1984).
Weight loss. Has the patient noticed any
recent weight loss? This may be due to the
patient feeling unwell, perhaps with nausea and
vomiting. If there is no explanation for rapid
weight loss, it may be indicative of malignancy.
Rheumatoid arthritis. Has the patient ever
been diagnosed as having rheumatoid arthritis
(RA)? The clinician also needs to find out if a
member of the patient's family has ever been
diagnosed as having this disease, as it is hereditary
and the patient may be presenting with the
first signs. Manual treatment of the cervical spine
should be avoided in patients with RA and other
joints should not be treated with manual therapy
during the acute inflammatory stage of the disease
(Grieve 1991). Common symptoms of RA
are red swollen joints, pain that is worst in the
morning and ystemic symptoms.
Drug therapy. In this area, there are three relevant
questions.
What drug therapy Itas tlte patient beell prescribed?
This can give useful information about the
pathological process and may affect treahnent.
For example, the strength of any painkillers indicates
the intensity of the patient's pain. A neurogenic
or central pain component does not tend to
respond to analgeSiC or anti-inflammatory drugs.
Care may be needed if the patient attends for
treatment soon after taking painkillers as the
pain will be temporarily masked and may cause
exacerbation of the patient's condition. In addition,
the clinician should be aware of any sideeffects
of the drugs taken.
Has the patie"t bee" 011 10llg-term medication/
steroids? High doses of corticosteroids or heparin
for a long period of time can cause osteoporosis,
which may be problematic with deep palpation.
Has the patient beell tnkillg allticonglllnllts? If so,
care is needed in the physical examination in
order to avoid trauma to tissues and consequent
bleeding.
X-rays and medical imaging. Has the patient
been X-rayed or had any other medical tests?
X-rays are useful to diagnose fractures, arthritis
and serious bone pathology such as infection,
osteoporosis or tumour and to determine the
extent of the injury following trauma. X-rays can
provide useful additional information but the
findings must be correlated with the patient's
clinical presentation. This is particularly true for
spinal X-rays, which may reveal the normal agerelated
degenerative changes of the spine that
do not necessarily correlate with the patient's
symptoms. For this reason, routine spinal X-rays
are no longer considered necessary for nontraumatic
spinal pain (Clinical Standards
AdVisory Report 1994).
Other imaging techniques include computed
tomography, magnetic resonance imaging, myelography,
discography, bone scans and arthrography.
The results of these tests can help to
determine the nature of the patient's condition.
Further details of these tests and their diagnostic
value can be found in Refshauge & Gass (1995).
Neurological symptoms. For spinal conditions,
the following information is acquired:
• Has the patient experienced symptoms of
spinal cord compression (i.e. compression of
the spinal cord that runs from the foramen
magnum to Ll)? Positive spinal cord
symptoms are bilateral tingling in hands or
feet and/or disturbance of gait due to
disturbance of the sensory and motor
pathways of the spinal cord. This can occur at
any spinal level but most commonly occurs in
the cervical spine (Adams & Logue 1971),
causing cervical myelopathy. Recent onset of
spinal cord compression may require a
prompt referral to a medical practitioner.
• Has the patient experienced symptoms of
cauda equina compression (compression
below L1) such as saddle (perineum)
anaesthesia/paraesthesia and bladder or
bowel sphincter disturbance (loss of control,
retention, hesitancy, urgency or a sense of
incomplete evacuation) (Grieve 1991)? These
symptoms may be due to interference of 53
and 54 nerve roots (Grieve 1981 ). Prompt
surgical attention is required to prevent
permanent sphincter paralysis.
Dizziness. Has the patient ever experienced
any dizziness? This is relevant for symptoms
emanating from the cervical spine, where
vertebrobasilar insufficiency (VB\) may be provoked.
VBI occurs when the blood supply to the
brain stem from the vertebral and basilar arteries
is reduced sufficient to cause signs and symptoms.
If present, the clinician determines the
aggravating and easing factors for dizziness, the
duration and severity of the dizziness and its
relationship with other symptoms such as disturbances
in vision, diplopia, nausea, ataxia, 'drop
attacks', impairment of trigeminal sensation,
sympathoplegia, dysarthria, hemianaesthesia
and hemiplegia (Bogduk 1 994).
History of the present condition
(HPC)
For each symptomatic area, the clinician should
ascertain:
• How long the symptom has been present
• Whether there was a sudden or slow onset of
the symptom
• Whether there was a known or unknown
cause that provoked the onset of the
symptom.
These questions give information about the
nature of the problem, in other words the possible
pathological processes involved and whether trauma
was a feature in the production of symptoms.
To confirm the relationship of symptoms, the
clinician asks when the symptoms began in rei a-
SUBJECTIVE EXAMINATION 21
tion to other symptoms. If, for example, anterior
knee joint pain started 3 weeks ago and increased
2 days ago when anterior calf pain developed, it
would suggest that the knee and calf pain are
associated and that the same structure may well
be at fault. If there was no change in the knee
pain when the calf pain began, the symptoms
may not be related and different structures may
be producing the two pain areas.
Past medical history (PM H)
The following information should be obtainable
from the patient and/or his or her medical notes:
• The details of any medical history that is
relevant to the patient's condition.
• The history of any previous attacks, e.g. the
number of episodes, when they occurred, the
cause, the duration of the episodes and
whether the patient fully recovered between
episodes. If there have been no previous
attacks, has the patient had any episodes of
stiffness?
• The results of any past treatments for the same
or similar problem. Past treatment records, if
available, may then be obtained for further
information. I t may well be the case that a
previously successful treatment modality will
be successful again, but greater efforts may be
needed to prevent a recurrence. PhYSical,
psychological or social factors may need to be
examined in more detail as they may be
responsible for the recurrence of the problem.
Social and family history (SH, FH)
Social and family history that is relevant to the
onset and progression of the patien􀅋s problem is
recorded. This may include information such as
the age of the patient, their employment, the
home situation, any dependants and details of
any leisure activities. In order to treat appropriately,
it is important that the condition is
managed within the context of the patient's
social and work environment. Regular and wideranging
help with personal care from family or
partner can be a sign of illness behaviour.
22 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Subjective examination
Body chart
/j
)
- -
",\$
􀀂
Relationship of symptoms
Aggravating factors
<;
Severe Irritable
Easing factors
I
No pain
"
Figure 2.10 Subjective examination.
Name
Age
Date
24 hour behaviour
-,
v
􀀊 Function
-;--
I mproving Static
\".
Special questions
General health
Weight loss
RA
Drugs
Steroids
Anticoagulants
X-ray
Cord symptoms
DIzziness
HPC
PMH
SH & FH
Intensity of pain
Worsening
I
Pain as bad as It
could possibly be
Plan of the physical examination
When all the subjective information has been
collected it is useful to highlight with asterisks
for easy reference important findings from the
subjective examination and particularly symptomatic
areas and one or more functional restrictions.
These can then be reassessed at subsequent
treatment sessions to evaluate the effects of treatment
on the patient's condition. A summary of
this first part of the patient examination can be
found in Figure 2.10.
In order to plan the physical examination, the
following hypotheses need to be developed from
the subjective examination:
Which joints, muscles and nerves could be a
source of the symptoms? Often it is not possible
to complete the entire examination on the first
day and so examination of structures must be
prioritized over subsequent treatment sessions.
What other factors need to be examined? This
may include environmental (e.g. inadequate
work station), behavioural (e.g. change in tennis
serve), emotional (e.g. stress), physical (e.g. poor
posture) or biomechanical (e.g. unequal leg
length) factors Oones 1994). There is a range of
validated questionnaires to assess these factors
and help to remove bias, see Williams ( 1 994,
1995) and Waddell (1998) for further information.
Is the condition severe andlor irritable? If the
condition is severe, no overpressures will be carried
out as the patient would be unable to tolerate
this. If the condition is irritable, fewer
movements may be examined.
What is the nature of the condition? As far as
possible, the nature of the condition needs to be
established; for instance, in the lumbar spine,
pain may be due to a fracture, spondylolisthesis
or a prolapsed intervertebral disc. As discussed
at the beginning of this chapter, this is often a n
area o f uncertainty and thus i t requires the clinician
to treat patients according to a working
hypothesis rather than a diagnosis. Any precautions
and/or contraindications to elements of the
physical examination need to be identified at this
stage, such as recent trauma, fracture, etc.
From the information obtained during the
subjective examination, the clinician decides
which tests need to be included in the physical
SUBJECTIVE EXAMINATION 23
examination to confirm or refute the above
hypotheses. In addition, the clinician must use
the information to prioritize the examination
procedures, which may be spread over two or
more treatment sessions.
A planning form for the physical examination,
such as the one shown in Figure 2.11 (described by
Maitland 1986, 1991), can be useful for inexperienced
clinicians, to help guide them through the
often complex clinical reasoning process. Figure
2.12 shows an advanced physical examination
planning form for more experienced clinicians.
APPENDIX 1 : CASE SCENARIOS
The main aim of the examination and assessment
is to determine the structures at fault, and this
process begins at the outset of the subjective
examination with the body chart and behaviour
of symptoms. Two examples of the clinical reasoning
process during the first part of the subjective
examination are given below.
Patient A
The symptoms are depicted in the body chart in
Figure 2.13.
The relationship of the symptoms is as follows.
The left and right cervical spine pains come and
go together; they appear to be a single area of
pain. When the cervical pain worsens, the
headache becomes apparent, but the cervical
pain can be present without the headache. The
left arm pain and paraesthesia in the left hand
always come and go together, and these symptoms
can be present without any neck pain or
headache.
This suggests that one structure is producing
the left and right neck pain, another structure is
producing the arm pain and paraesthesia in the
hand, and, pOSSibly, a third structure is producing
the headache.
The information gathered so far from the body
chart suggests various structures giving rise to
each symptom and these are listed in Table 2.5.
The clinician then uses the behaviour of symptoms
to further localize which structures may be
at fault.
24 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
1. Name all the possible structures which could be 8 source of Ihe symptoms
Symptomatic area
2. What needs to be examined today and why?
3. Behayiour of symptom.
(a) Is the condition severel Yes No
Explain why
(blls the condition irritable7 Yes No
Explain why
Struc!Ure under area
Ie) Are there any precautions or contraindication!? Yes No
Explain
Structure which can reler to ar8a
4. How is Ihe severity, irritability or nature of Ihe condition going to affect your physical 8xmination and treatment7
SUBJECTIVE EXAMINATION 25
5. The comparable sign will be easy ., hard 10 find
Explain why
6. What subjective examination findings indIcate likely phvsical findings?
Subjective Physical
7. What other faClafs noed to be examined 88 reasons why lhe structure has become symptomatic?
Figure 2.11 Physical examination planning form (to be completed atter the subjective examination ). (After Maitland 1991.)
Behaviour of symptoms
Aggravating factors. The clinician asks the
effect on symptoms of specific aggravating
movernents and positions for each structure suspected
to be a source of symptoms. Table 2.6
illustrates the questions that might be asked and
the pOSSible responses.
The logical interpretation of the information on
aggravating factors would be that the cervical
spine is producing the left and right cervical spine
pain and the headache. Abnormal neurodynamics
is producing the left arm pain and paraesthesia in
the left hand, since the aggravating positions put
the nervous system on a stretch.
Easing factors. The relationship of symptoms
and the structures at fault may be further
confirmed by establishing the easing factors. The
patient may find, for example, that keeping the
cervical spine still eases the neck pain, that the
headaches are eased by avoiding extreme neck
positions and that the left arm pain and pins and
needles in the fingers of the left hand are eased
by supporting the left arm with the shoulder
girdle elevated. This information would confirm
the findings from the body chart and aggravating
factors.
Patient B
The symptoms are depicted in the body chart in
Figure 2.14.
The relationship of symptoms is as follows.
When the lumbar spine pain gets worse (it is
constant but varies in intensity), there is no
26 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Source of symptoms
, Name all the possible structures which could be a source of the symptoms
Symptomatic area Structure under 8(8a
Mechanism of symptom production
2. list the supporting evidence for the mechanism 01 each symptom
Symptom NociceptIVe Peripheral evoked
neufOgenic
3 Is the disorder predominantly inflammatory or mechanical?
(a) Indicate Ihe relatIVe proportion of inflammatory to mechanical
Inflammatory 0 __ 100%
MechaM:al 0 __ 100%
ib) List the loclol"$ that support and negate you' decision
Support
4 What needs to be examined today?
Why?
Centrally evoked
Negate
SrruclUre which can refer 10 area
Autonomic/motor Affect've
SUBJECTIVE EXAMINATION 77
5 What needs to be lumined on day 2 and day 31
DeV 2 Day 3
6 Will a neurological examm8uon be necessary? V" No
Explain why
Behaviour of 'ymptom,
7. ,. thl condllion StIliere? V" No
Low Htgh
EJcphlinwhy
6 lath, condition imtable? V. . No
Low High
Explain why
9 Doe. the "elura oltha condition IndICate Clutlon] V. . No
,. Arelhere any prec.uhona or contraindication? V .. No
Explain
28 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
11. How is the severity, irritability or nature of the condition going to affect your physical examination?
Local symptoms Referred symptoms Dysaesthesia
Short of Pl Short of production
Point of onset or increase in Point of onset or increase in Point of onset or increase in
rssting symptoms resting symptoms resting symptoms
Partial reproduction Panial reproduction Partial reproduction
Total reproduction Total reproduction Total reproduction
12. The comparable sign will be easy or hard 10 find
Explain why
13. What subjective examination findings indicate likely physical lindings?
Subjective PhySical
14. What proportion of the symptoms do you think each structure contributes to the clinical presentation1
Symptoms Structure
15. What is your clinical diagnosis?
Other symptoms (e.g. dizziness)
Point of onsel or increase in
resting symptoms
Partial reproduction
TOlsl reproduction
16. What other facTors need to be examined as reasons why the structure has become symptomatic or to prevent recurrence?
17. What advice should be given to prevent recurrence1
Figure 2.12 Advanced physical examination planning form (to be completed Day 1 after the subjective examination). (After
Maitland 1986 and Jones 1994.)
11M
headache ---/­
superficial
./
.,
....
SUBJECTIVE EXAMINATION 29
-j----- C deep
ache
./
./ ./ -1--- 11M dull -­
superficial
./ ./
ache
11M
P+Ns
./
1!M=lntermlttent
C=Constant
P+NS=Plns & needles
Figure 2.13 Body chart patient A. ( ..... ). no symptoms.
change in any of the other pains. The buttock and
thigh pains come and go together. The iliac crest
pain, buttock and posterior thigh pain come on
separately; the patient can have the iliac crest
pain without the buttock and thigh pain, and
similarly the buttock and thigh pain can come on
without the iliac crest pain.
Since none of the symptoms seems to be associated,
this would suggest that there are three
different structures at fault, each causing one of
the three areas of pain.
The information gathered so far from the
body chart suggests that various structures are
giving rise to each symptom; these are listed in
Table 2.7. The clinician then uses the behaviour
of symptoms to further localize whicl, structures
are at fault.
Behaviour of symptoms
Aggravating factors. The clinician asks the
effect on symptoms of specific aggravating
movements and positions for each structure suspected
to be a source of symptoms. Table 2.8
illustrates the questions that might be asked and
the possible responses.
30 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
., ' .
. "
V
"
./ ,/
,/
11M dull
superficial
ache
/:.::.􀀔 ,,: :'
.... ' " . /
C (vanes)
-- deep ache
11M superficial
pain
,/ ,/ ,/ ,/
Figure 2. 1 4 Body chart patient B . (.I), no symptoms; C , constant; 11M, intermittent.
The logical interpretation of the information
on aggravating factors would be that the lumbar
spine is producing the central lumbar spine pain;
the left sacroiliac joint is producing the left iliac
crest pain; and abnormal neurodynamics is
producing the posterior buttock and left thigh
pain.
Easing factors. The relationship between
symptoms may be further confirmed by establishing
the easing factors. The patient may find
that the lumbar spine pain is eased by lying
supine and that the iliac crest pain is eased by
applying a tight belt around the pelviS.
Provocation of the buttock and posterior thigh
pain is reduced by aVOiding any stretch to the
sciatic nerve, such as in long sitting or getting in
or out of a car. This information would confirm
the findings from the body chart and aggravating
factors.
APPENDIX 2: COUNTERFEIT
CLINICAL PRESENTATIONS
(from Grieve 1 994b)
Since physiotherapists are now 'first contact'
clinicians, we have assumed greater responsibilities.
While those interested in manipulation
and allied treatments energetically improve
their competence in the various techniques
and applications, we might profitably spend a
little time considering what we are doing all
this to.
Table 2.5 Structures suspected to be a source of the
symptoms
Symptom Structure
Left cervical spine pain
Right cervical spine pain
Right headache
Left arm pain
Paraesthesia in left hand
Cervical spine"
Cervical spine
Cervical spine
Spine and cerebral dura mater
Cervical spine
Neural tissue
Individual jOints - shoulder
elbow and wrist
Individual muscles around
shoulder, elbow, wrist and
hand
Cervical spine
Neural tissue
Entrapment of brachial plexus
around first rib
Entrapment of nerve at wrist
• Note that, because of the complex anatomy of the spine
and the fact that most structures are pain-sensitive. it is very
difficult to isolate specific structures in the spine at this stage
in the examination. For the purposes of this part of the
examination, the region is therefore dealt with as one
structure.
Table 2.6 Possible aggravating factors for each of the symptoms
SUBJECTIVE EXAMINATION 31
Table 2.7 Structures suspected to be a source of the
symptoms
Symptom Structure
Central low back pain
Left iliac crest pain
Left buttock and thigh pain
Lumbar spine
Lumbar spine
Sacroiliac joint
Lumbar spine
Sacroiliac joint
NelVous tissue
Muscles
Cervical spine Nervous tissue (Includes first rib) Shoulder Elbow Wrist
Symptoms
Cervical spine pain
Right headache
Left arm pain
Pins and needles in
left hand
Extension Rotation
+ +
Sustained Depression of
flex shoulder girdle
+
+
+
+
+, reproduction of symptoms; -. no production of symptoms
Table 2.8 Possible aggravating faclors for each of the symptoms
Lumbar spine Sacroiliac jOint
Carrying
loads
+
+
+
Symptoms Flexion Waling Sitting Standing on
one leg
Lumbar spine pain + +
Iliac crest pain + +
Buttock and posterior
thigh pain
+. reproduction of symptoms; -, no production of symptoms
Hand behind Flexion! Flexion!
back extension extension
Nervous tissue Hip
Rolling over Long sit Squat
in bed
+
+
32 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
If we take patients off the street, we need more
than ever to be awake for those conditions which
may be other than benign neuromusculoskeletal.
This is not 'diagnosis', only an enlightened
awareness of when manual or other physical
therapy may be more than merely foolish and
perhaps dangerous.
There is also the factor of delaying more
appropriate treatment. It is not in the patients'
best interest to foster the notion that 'first contact
clinician' also means 'diagnostician' (Grieve
1991). Pain distribution might confuse unwary or
overconfident therapists, who may assume
familiarity with a syndrome they recognize and
then perhaps find themselves confronting the tip
of a very d ifferent kind of iceberg.
Distribution of pain from visceral conditions,
especially, can easily mislead, unless one maintains
a lively awareness of how they can present.
Some examples follow:
• Angina can affect face, neck and jaw only, and
true anginal pain can on occasions be
posterior thoracic as well as precordial. Simple
thoracic joint problems often simulate angina,
of course.
• Hiatus hernia may present with chest and
bilateral shoulder pain, as may oesophageal
spasm with, in this case, added radiation to
the back.
• Virtually anything in the abdomen can present
with back pain; examples are peptic ulcer,
cancer of the colon or rectum, retroperitoneal
d isease (e.g. cancer of the pancreas) or
abdominal arterial disease (Grieve 1 994a).
Some suggest that a peptic ulcer must be a
gross lesion to refer pain to the back, yet
individuals with an ulcer shallow enough to
escape barium meal examination may have
back pain from the ulcer. Even when the ulcer
is healing a glass of milk will ease the
backache which follows gardening
(Brewerton, personal communication,
1 990).
Our concern is to quickly perceive when the
non-neuromusculoskeletal conditions should be
directed elsewhere for the best chance of specialist
diagnosis and correct treatment.
Provocation and relief
A common opinion is that benign neuromusculoskeletal
conditions of the spine are
recognizable because the clinical features are
provoked by certain postures and activities (such
as coughing and sneezing) and lessened by other
(antalgie) postures and activities, this pattern of
provocation and relief being the distinguishing
factor. By contrast, the features of systemic, neoplastic
or other (non-neuromusculoskeletal) conditions
are said, in broad terms, to be identifiable
in being less influenced by postures or activity.
This rule of thumb is too simplistic; many conditions,
in either category, do not behave in this
way.
The writer recalls two patients: one who, with
a clear history of recent trauma to the left upper
thorax, developed the classic features of a simple
rib joint lesion, and another who presented with
a watertight history of bouts of low back pain,
closely related to prolonged periods of sitting
and stooping. In each case, the physical signs
confirmed the opinion that these were simple
benign lesion . Both were neoplasms. Both
patients soon succumbed. Fortunately, treatment
was not aggressive or enthusiastic and soon
stopped.
Malignant testicular tumours in
young men
The reason for writing in a little detail about this
tumour is that, while infrequent, it is the most
common form of cancer in young men by reason
of its age-specific incidence, i.e. 20-35 years. The
incidence is steadily increasing in many countries.
In Scotland, for example, the frequency has
doubled from 2.5 males per 100 000 to 5.0 per
100 000 in the last two decades ( Kaye 1990).
Denmark has also reported a significant increase
in recent years.
Metastases from the testis occur in the majority
of patients with testicular germ-cell tumours,
progressing through the lymphatics via the
spermatic cord to the para-aortic, retroperitoneal
and retrocrural lymph nodes, then through the
thoracic duct to the posterior mediastinum and
(usually left-sided) supraclavicular lymph nodes.
Vascular spread may also occur, usually involving
the IWlgS as well as the lymph nodes.
Clinical features
The characteristically hard-textured mass is painless
in 75% of patients, and is usually discovered
by self-examination. As a rule, the patient is otherwise
healthy and asymptomatic. That is, until the
para-aortic lymph nodes become involved, which
is declared by backache (Cole 1987, Cantwell et al
1989, Smith et aI 1989). Low back pain is the common
early symptom of retroperitoneal lymph
node metastasis. The pain is provoked by coughing
and sneezing, and this feature may well delay
diagnosis of the true cause (Cantwell et al 1989),
besides initiating time-wasting and ineffectual
treatment for a supposed benign lumbar spine
condition. In the advanced stage there is anorexia,
weight loss and dyspnoea.
REFERENCES
Adams C B T, Logue V 1971 Studies in cervical spondylotk
myelop.:llhy 11. The movement and contour of the spine in
relation to the neural complications of cervical
spondylosis. Brain 94: 569-587
Austen R 1991 The distribution and characteristics of
lumbar-lower limb symptoms in subjects with and
without a neurological deficit. In: Proceedings of the
Manipulative PhYSiotherapists Association of Australia,
7th biennial conference, New South Wales, pp 252-257
Bogduk N 1994 Cervical causes of headache and dizziness.
In: Boyling J 0, Palastanga N (eds) Grieve's modern
manual therapy, 2nd eeln. Churchill livingstone,
Edinburgh, ch 22, p 317
Cantwell B M, McDonald I, Campbell S, Millward M J,
Roberts J T 1989 Back pain delaying diagnosis of metastatic
testicular tumours. Lancet 2(8665): 739-740
Clinical Standards Advisory Report 1994 Report of a CSAG
committee on back pain. HMSO, London
Cole R P 1987 Low back pain and testicular cancer. British
Medical Joumal 295: 840-841
Corrigan B, Maitland G 0 1994 Musculoskeletal and sports
injuries. Butterworth Heinemann, Oxford
Dalton P A, Jull G A 1989 The distribution and characteristics
of neck-arm pain in patients with and without a
neurological defidt. Australian Journal of Physiotherapy
35(1): :H!
Dickson R A, Wright V 1984 Musculoskeletal disease.
Heinemann, London
Fields H (ed) 1995 Core curriculum for professional
education in pain, 2nd edn. IASP, Seattle, WA
SUBJECTIVE EXAMINATION 33
Caution
There exists a wide variety of clinical misrepresentations,
the signs and symptoms of which are
counterfeit and should not be taken at their face
value. A few have been mentioned; for others
see Grieve, 1 994a. Physiotherapy is inappropriate
(Sicard-Rosenbaum & Danoff 1993). I t is
wise to remember that radiography will not
reveal metastasis of vertebral bone until the
involvement is gross or at least well advanced
(O'Connor & Currier 1 992).
We should be awake for the young man who,
in the absence of a history of trauma or stress and
otherwise in good health, presents with low back
pain which is provoked by coughing and sneezing.
Patients should be encouraged to examine
themselves. The finding of a suspicious hard
lump indicates the need for prompt referral to a
surgeon or oncology department. Happily,
chemotherapy is often curative.
Gifford L 1996 The clinical biology of ache and pains (course
manua!), 5th edn. Neuro-Orthopaedic Institute UK,
Falmouth
Grieve G P 1981 Common vertebral jOint problems. Churchill
Livingstone, Edinburgh
Grieve G P 1991 Mobilisation of the spine, 5th eeln. Churchill
Livingstone, Edinburgh
Grieve G P 1994a The masqueraders. In: Beyling J 0,
Palastanga N (eels) Grieve's modern manual therapy,
2nd eeln. Churchill Livingstone. Edinburgh, ch 63,
p 841
Grieve G P 1994b Counterfeit clinical presentations.
Manipulative PhYSiotherapist 26: 1 7-19
Harding V, Williams A C de C 1 995 Extending
physiotherapy skills using a psychological approach:
cognitive-behavioural management of chronic pain.
Phys;otherapy 81(11): 681-688
Hinnant D W 1994 Psychological evaluation and testing.
In: Tollison C D (ed) Handbook of pain management,
2nd edn. Williams & Wilkins, Baltimore, MD, ch 4,
p 18
Jones M A 1994 Clinical reasoning process in manipulative
therapy. In: Boyling J 0, Palastanga N (eels) Grieve's
modern manual therapy, 2nd edn. Churchill Livingstone,
Edinburgh, eh 34, p 471
Jull G A 1986 Examination of the lumbar spine. In: Grieve
G P (ed) Modern manual therapy. Churchill liVingstone,
Edinburgh, chS1, p 547
Kaye S B 1990 Testis cancer. In: McArdle C (ed) Surgical
oncology. Butterworth, London, ch 10
34 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Keefe F 1. Block A R 1982 Development of an observation
method for assessing pain behaviour in chronic low back
pain patients. Behavioral Therapy 13: 363--375
Lindsay K W, Bone I. Callander R 1991 Neurology and
neurosurgery illustrated, 2nd edn. Churchill Livingstone.
Edinburgh
McGuire 0 B 1995 The multiple dimensions of cancer pain: a
framework for assessment and management. In: McGuire
o a, Yarbro C H, FelTeli B R (eds) Cancer pain
management, 2nd edn. Jones & Bartlett, Boston, MA, eh I,
pp 1-17
McKenzie R A 1981 The lumbar spine: mechanical diagnosis
and therapy. Spinal Publications, New Zealand
Macnab 1 1971 Negative disc exploration, an analysis of the
causes of nerve-root involvement in Sixty eight patients.
Journal of Bone and Joint Surgery 53A(S): 891-903
Magee 0 J 1992 Orthopedic physical assessment.
W B Saunders, Philadelphia, PA
Maitland G D 1986 Vertebral manipulation, 5th eeln.
Butterworths, London
Maitland G 0 1991 Peripheral manipulation, 3rd eeln.
Butterworths, London
Melzack R, Wall P 1996 The challenge of pain, 2nd edn.
Penguin, London
Mense 5 1993 Nocicephon from skeletal muscle in relation to
clinical muscle pain. Pain 54(3): 241-289
Mills K R, Newham 0 J, Edwards R H T 1989 Muscle pain.
In: Wall P O, Melzack R (eels) Textbook of pain, 2nd eeln,
Churchill Livingstone, Edinburgh, ch 29, p 420
Mooney V, Robertson j 1976 The facet syndrome. Clinical
Orthopaedics and Related Research 1 1 5: 149-156
Nachemson A 1992 Lumbar mechanics as revealed by
lumbc1r intradiscal pressure measurements. In:
Jayson M I V (ed) The lumbar spine and back pain,
4th edn. Churchill Livingstone, Edinburgh, ch 9,
P 1 57
O'Connor M I, Currier B L 1992 Metastatic disease of the
spine. OrthopaediCS IS: 611-620
Refshauge K, Gass E (eels) 1995 Musculoskeletal
physiotherapy clinical science and prachce. Butterworth
Heinemann, Oxford
Shorland S 1998 Management of chronic pain following
whiplash injuries. In Gifford L (ed) Topical issues in pain.
Neur0-0rthopaedic Institute UK, Falmouth, ch 8,
P 1 1 5-134
Sicard-Rosenbaum L, Danoff J 1993 Cancer and ultrasound: a
warning. Physical Therapy 73: 404--406
Smith D 5, Newlands E S, Rustin G j, Regent R H, Bagshawe
K D 1989 Lumbar pain in stage 1 testicular germ-cell
tumour: a symptom preceding radiological abnormality.
British journal of Urology 64: 302-304
Taylor D C M, Pierau Fr-K, Mizutani M 1984 Possible bases
for referred pain. In: Holden A V, Winlow W (eds) The
neurobiology of pain, Manchester University Press.
Manchester, ch 10, p 143
Van Cranenburgh B 1989 lnleiding in de toegcpaste
neurowetenschappen, deel l , Neurofilosofie (Introduction
to applied neuroscience, part 1, Neurophysiology), 3rd
edn. Uitgeversmaatschappij de Tijdstroom, Lochum
Waddell G 1998 The back revolution. Churchill Livingstone,
Edinburgh
Wells P E, Frampton V, Bowsher D 1994 Pain m..'lnagement
by physiotherapy, 2nd eeln. Butter\'l/orth-Heinemann,
Oxford
Williams A C de C 1994 Assessment of the chronic pain
patient. Clinical Psychology Forum 71: 9-13
Williams A C de C 1995 Pain measurement in chronic pain
management. Pain Reviews 2: 39-63
Woolf C 1994 The dorsal horn: state-dependent sensory
processing and the generation of pain. In: Melzack R, Wall
P (eds) Textbook of pain, 3rd edn. Churchill LiVingstone,
Edinburgh, ch 5, plOl-1 l 2
CHAPTER CONTENTS
Introduction 35
Physical examination step by step 36
Observation 36
Joint tests 45
Muscle tests 53
Neurological tests 64
Special tests 90
Functional ability 90
Palpation 90
Accessory movements 96
Completion of the physical examination 103
Physical examination
INTRODUCTION
The aim of the physical examination is to determine
what structure(s) and/or factor(s) are
responsible for producing the patient's symptoms.
Physical testing procedures are therefore carried
out in an attempt to find confirmatory signs and
thus prove or disprove that the structures identified
in the subjective examination are sources of
the symptoms. As Jones & Jones (1994) point out:
'the physical examination is not simply the
indiscriminate application of routine tests, but
rather should be seen as an extension of the
subjective examination . . . for specifically testing
hypotheses considered from the subjective
examination'.
Two assumptions are made when carrying out
the physical examination:
• If symptoms are reproduced when a structure is
stressed, the symptoms are thought to arise
from that structure. One of the reasons for the
difficulty in making a structural diagnosis is
that none of the tests stresses individual
structures in isolation - they all affect a number
of tissues, both locally and at a distance. For
example, knee flexion will affect the joint itself
and its surrounding joint, capsule, ligaments,
muscles and neural tissue, as well as joints,
muscles and nerves proximally at the hip and
spine and distally at the ankle .
• If an abnormality is detected in a structure,
which theoretically could refer symptoms to
the symptomatic area, then that structure is
suspected to be a source of the symptoms. The
35
36 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
abnormality is described as a comparable sign
(Maitland 1991).
The term 'objective' is often applied to the
physical exam ination but suggests that this part
of the examination is not prejud iced and that the
findings are valid and reliable. This is certainly
misleading as most of the tests carried out rely
on the skill of the clinician to observe, move and
palpate the patient. The clinician should take
account of this when making an assessment of a
patient based on the findings of the physical
examination. The clinician should use all the
information obtained from the physical examination
(and subjective examination) and realize the
very real possibility that some tests may show
false-positive or false-negative results because of
their uncertainty. The clinician must therefore
keep an open mind, thinking logically throughout
the examination, not qu ickly jumping to conclusions
based on just one or two tests. Thus the
Maitland (1 986) concept suggests that the clinician
must 'make the features fit'.
The phYSical examination is summarized in
Table 3.1. Some of the tests that are common to
a number of areas of the body, such as posture,
muscle tests and neurological examination,
are described in this chapter, rather than
repeating them in each chapter. More specific
tests, e.g. of stru ctures such as the vertebral
artery, are described in the relevant chapters.
The order of the testing given below can of
course be varied a ccord ing to the patient and
the condition.
PHYSICAL EXAMINATION STEP BY
STEP
Observation
Informal and formal observation of static and
dynamic postures can give the clinician information
about the following:
• The pathology - e.g. olecranon bursitis
produces a localized swelling over the
olecranon process
• Whether the patient d isplays overt pain
behaviour (see Box 2.1) and the possible
Table 3.1 Summary of the physical examination
Area of examination Procedure
Observation Informal and formal observation 01
posture, muscle bulk and tone, soft
tissues, gait and patient's aHitude
Joint tests Integrity tests
Active and passive physiological
movements
Joint effusion measurement
Passive accessory movements
Muscle tests Muscte strength
Muscle control
Muscle length
Isometric muscle testing
Muscle bulk and oedema
Diagnostic muscle lesls
Neurological tests Integrity of the nervous system
Mobility of the nervous system
Diagnostic tests
Special tests Vascular tests
Measurement of bony abnormality
Soft tissue tests
Functional ability As appropriate
Palpation Superficial and deep soft tissues,
bone, joint, ligament, muscle, tendon
and nervous tissue
Accessory movements Including natural apophyseal glides,
sustained natural apophyseal glides
and mobilizations with movement
factors contributing to the patient's problem e.
g. a difference in the height of the left and
right anterior superior iliac spines in standing
suggests a leg length d iscrepancy
• The phYSical testing procedures that need
to be carried out, e.g. strength tests for
any muscle that appears wasted on
observation
• The pOSSible treatment techniques, e.g.
postural re-education for patients who suffer
from heada ches and who are observed to have
a forward head posture.
It should be remembered, however, that the
posture a patient adopts reflects a multitude of
factors, including not only the state of bone, joint,
muscle and neural tissue but also the pain experienced
and the patient's emotions and body
awareness or lack thereof.
Informal observation
The clinician should observe the patient in
dynamic and static situations; the quality of
movement is noted, as are the postural characteristics
and facial expression. The observation
starts at the beginning of the subjective examina-
PHYSICAL EXAMINATION 37
tion but continues throughout the rest of the subjective
and physical examinations. It may well be
that this informal observation is as informative
as the formal assessment, as a patient under such
scrutiny may not adopt his/her usual posture.
For example the c1iJlician observes whether the
patient is using aids (prescribed or non-pre-
Back EX:lensors \
Hip Extensors
Gluteus
Hamstrin g s
Rectus abdominls
External oblique
Flexors
Tensor fasciae
talae
􀃴H--R"c",s femons
Figure 3.1 I deal alignment. (From Kendall F P et al 1993 Muscles lesting and function, 4th edn.
!Cl Williams & Wilkins.)
38 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
scribed) such as collars, sticks and corsets and
whether they are being used in an appropriate
way. An aid that is used in an overt manner, such
as a bandage worn over clothing, is an indication
of possible illness behaviour.
Formal observation
Observation of posture. The clinician observes
posture by examining the anterior, lateral and
posterior views of the patient. The ideal alignment
is summarized in Figure 3.1. Typical postures
that will be observed include:
• The IIpper (or shoLllder) crossed syndrome, shown
in Figure 3.2, where there is elevation and
protraction of the shoulders, rotation and
abduction (winging) of the scapulae and
forward head posture Uanda 1994) .
• The lower (or pelvic) crossed sYlldrome, shown in
Figure 3.3, where there is an anteriorly rotated
Deep neck flexors
weak
Tight
pectorals
pelvis, an increased lumbar lordosis and slight
flexion of the hips.
• The kyphosis-lordosis postllre (Kendall et al
1 993). This is shown in Figure 3.4 and is more
or less equivalent to the upper and lower
crossed syndromes.
• Layer syn drome (lull & Janda 1 987), shown in
Figure 3.5, where there are alternate 'layers'
of hypertrophic and hypotrophic muscles
when the patient is viewed from behind.
There is weakness of the lower stabilizers of
the scapula, lumbosacral erector spinae,
glu teus m3ximus, rectus abdominis and
transversus abdominis; there is
hypertrophy of the cervical erector spinae,
upper trapezius, levator scapulae,
thoracolumbar erector spinae and
hamstrings.
• The flat back post II re (Kendall et a I1993),
shown in Figure 3.6, which is characterized by
a slightly extended cervical spine, flexion of
Trapezius and levator scapula
tight
Weak
rhomboids and serratus anterior
Figure 3.2 Upper (or shoulder) crossed syndrome. (From Chaitow 1996. with permission.)
Erector
spinae
tight
Weak
gluteus
maximus
Abdominals
weak
Tight
iliopsoas
Figure 3.3 Lower (or pelvic) crossed syndrome. (From
Chaitow 1996, with permission.)
the upper part of the thoracic spine (the lower
part is straight), absent lumbar lordosis, a
posterior pelvic tilt and extension of the hip
joints and slight plantarnexion of the ankle
joints. This is thought to be due to elongated
and weak hip flexors and short, strong
hamstrings. Sahrmann (1993) additionally
considers the lumbar paraspinal muscles to be
long .
• The sway back postllre (Kendall et aI 1993),
shown in Figure 3.7, which is characterized by
a forward head posture, slightly extended
cervical spine, increased flexion and posterior
displacement of the upper trunk, flexion of the
lumbar spine, posterior pelvic tilt,
hyperextended hip joints with anterior
displacement of the pelvis, hyperextended
PHYSICAL EXAMINATION 39
Figure 3.4 Kyphosis-lordosis posture. Elongated and
weak: neck flexors, upper back erector spinae, extemal
oblique, hamstrings (elongated - may or may not be weak).
Short and strong: neck extensors, hip flexors, lumbar erector
spinae (strong - may or may not be short). (From Kendall
F P at al 1 993 Muscles testing and function, 4th edn.
© Williams & Wilkins.)
40 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Muscle hypotrophy
Lower stabilizers
01 the scapula
Lumbosacral
erector spinae
Gluteus maxlmus
Muscle hypertrophy
Cervical erector spinae
Upper trapezius
Levator scapulae
Thoracolumhar
erector spinae
Hamstnngs
Figure 3.5 Layer syndrome. (From Jull & Janda 1987, with permission.)
knee joints and neutral ankle joints. This
posture is thought to be due to elongated and
weak hip flexors, external obliques, upper
back extensors and neck flexors, short and
strong hamstrings and upper fibres of the
internal oblique abdominal muscles, and
strong, but not short, lumbar paraspinal
muscles.
• The IWI/dedl/ess pos/llre (Kendall et aI 1993),
shown in Figure 3.8, which is characterized,
for right-handed individuals, as a low right
shoulder, adducted scapulae with the right
scapula depressed, a thoracolumbar curve
convex to the left, lateral pelvic tilt (high on
the right), right hip joint adducted with slight
medial rotation, and the left hip joint abducted
with some pronation of the right foot. I t is
thollght to be due to the following muscles
being elongated and weak: left lateral trunk
muscles, hip abductors on the right, left hip
Figure 3.6 Flat back posture. Elongated and weak: hip
flexors, paraspinal muscles. Short and strong: hamstrings.
(From Kendall F P et al 1 993 Muscles testing and function,
4th edn. © Williams & Wilkins.)
adductors, right peroneus longus and brevis,
left tibialis posterior, left flexor hallucis longus
and left flexor digitorum longus. The right
tensor fasciae latae may or may not be weak.
There a re short and strong right lateral trunk
PHYSICAL EXAMINATION 41

Figure 3.7 Sway back posture. Elongated and weak: hip
flexors, external obliques, upper back extensors, neck
flexors. Short and strong: hamstrings, upper fibres of internal
oblique, lumbar paraspinal muscles (not short). (From
Kendall F P et al 1993 Muscles testing and function, 4th edn.
© Williams & Wilkins.)
muscles, left hip abductors, right hip
adductors, left peroneus longus and brevis,
right tibialis posterior, right flexor hallucis
longus and right flexor digitorum longus. The
left tensor fasciae latae is usually strong and
there may be tighh1ess in the iliotibial band.
There is the appearance of a longer right leg.
Other postural presentations may include skin
creases a t various spinal levels. A common
42 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 3.8 Handedness posture. Elongated and weak: left
lateral trunk muscles, right hip abductors, left hip adductors,
right peroneus longus and brevis, left tibialis posterior, left
flexor haliucis longus, left flexor digilorum longus, right tensor
fasciae latae (may or may nol be weak). Short and strong:
right lateral trunk muscles, left hip abductors, right hip
adductors, left peroneus longus and brevis, right tibialis
posterior. right flexor haltucis longus, right flexor digitorum
longus, left tensor fasciae lalae may or may not be weak.
(From Kendall F P el al 1993 Muscles testing and function.
4th edn. <0 Williams & Wilkins.)
example would be a crease at the mid-cervical
spine indicating a focus of movement at that
level; this would be followed up later on in the
examination with passive accessory intervertebral
movement (PAIVM) and passive physiological
intervertebral movement (PPIVM), which
would uncover hypermobility at this level.
Protracted and downward rotation of the scapula
with internal rotation of the humerus is
another common presentation; muscle length of
rhomboids, levator scapula, pectoralis minor
would be indicated as well as muscle control of
mid and lower fibres of trapezius and serratus
anterior.
Any abnormal asymmetry in posture should
be corrected to determine its relevance to the
patient's problem. If the symptoms a re changed
by altering an asymmetrical posture, this suggests
that the posture is related to the problem. If
the symptoms are not affected then the asymmetrical
posture is probably not relevant. Note the
resting position of relevant joints as this may be
indicative of abnormal length of the muscles
(White & Sahrmann 1994).
For further details on examination of posture,
the reader is referred to Magee 1992, Kendall et al
1993 and other similar textbooks.
The clinician should also observe the patient in
sustained postures and during habitual/repetitive
movement where these are relevant to the
problem. Sustained postures and habitual movements
are thought to have a major role in the
development of dysfunction (Sahrmann 2001). A
patient with neck pain when sitting, for example,
may be observed to have an extended cervical
spine and poking chin as well as holding the
pelvis in posterior pelvic tilt (Fig. 3.9) . When the
clinician corrects this posture to determine its relevance
to the patient's problem, by guiding the
pelvis into anterior pelvic tilt, the poking chin
may be lessened and the neck pain reduced.
An example of habitual movement pattern
may be a patient with lumbar spine pain who has
pain on bending forwards. The patient may flex
predominantly at the lumbar spine or predominantly
at the hips (Fig. 3.10). If movement mainly
occurs at the lumbar spine then this region may
be found to be hypermobile (tested by PAIVMs
and PPfVMs later on in the examination) and the
region where movement is least may be found to
be hypomobile.
Observation of muscle form. The clinician
observes muscle shape, bulk and tone of the
patient, comparing the left and right sides. It
must be remembered that handedness and level
PHYSICAL EXAMINATION 43
A B
Figure 3.9 The eHect of pelvic tilt on cervical spine posture. A In posterior pelvic tilt the cervical spine is extended with a
poking chin. B When the posterior pelvic lill is reduced the cervical spine is in a more neutral position.
A B
Figure 3.10 On bending forwards the patient may bend predominantly at the lumbar spine (A) or at the hips (B).
44 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Table 3.2 Reaction of muscles to stre ss (Jult & Janda 1 987. Janda 1 994, Comerford & Kinetic Control 2000)
Muscles prone to become light
Masseter, temporal is, digastric and suboccipital muscles,
levator scapulae, rhomboid major and minor, upper
trapezius, sternocleidomastoid, pectoralis major and minor
scatenes, flexors of the upper limb, erector spinae
(particularly thoracolumbar and cervical parts). quadratus
lumborum. piriformis, tensor fasciae latae, rectus femoris,
hamstrings, short hip adductors, tibialis posterior,
gastrocnemius
Muscles prone to become weak
Serratus anterior, middle and lower fibres of trapezius, deep
neck flexors, mylohyoid. subscapularis. extensors of upper
limb, gluteus maximus, medius and minimus, deep lumbar
multifidus, iliopsoas, vastus medialis and lateralis, tibialis
anterior and peronei
The reaction 01 longus colli, longus capitis, rectus capitis anterior, supraspinatus, infraspinatus and teres minor and major is
unclear (Janda 1 994).
and frequency of physical activity may produce
differences in Il'lUscie bulk between sides.
Muscles produce and control movement, and
normal movement is dependent on the strength
and flexibility of the agonist and antagonist muscles
acting over a joint. A concept of muscle
imbalance in some individuals has been
described by several workers (jull & Janda 1987,
Kendall et a1 1993, White & Sahrmann 1 994). The
postural muscles are thought to shorten under
stress, while the phasic muscles become weak
(jull & Janda 1987). In this context, 'phasic'
describes muscles that produce movement.
These muscles are listed in Table 3.2. More
recently, however, White & Sahnnann ( 1994)
have suggested that the postural muscles tend to
lengthen and then appear weak as they are tested
in a shortened position.
Observation 01 soft tissues. The local and general
soft tissues should be observed, noticing the
colour and texture of the skin, the presence of
scars, abnormal skin creases suggesting an
underlying deformity, swelling of the soft tissues
or effusion of the joints. The skin colour and texture
can indicate the state of the circulation (a
bluish tinge suggesting cyanosis or bruising and
redness indicating inflammation), the state of the
patient's general health, sympathetic changes
such as increased sweating, bruiSing and the
presence of other diseases. For example, peripheral
nerve lesions result in shiny skin that has
lost its elasticity and hair, and the nails may be
brittle and ridged, such as occurs with complex
regional pain syndrome (previously called reflex
sympathetic dystrophy). Scars may indicate
injury or surgery and will be red if recent and
white and avascular if old.
Observation 01 gait. This is often applicable for
spinal and lower limb problems. The clinician
observes the gait from the front, behind and at
the side, looking at the pelvis, hips, knees, ankles
and feet. A detailed description of the observation
can be found in Magee (1992). Common
abnormalities of gait include the following:
• An antalgic gait due to pain at the hip, knee or
foot, characterized by a shortened stance
phase of the affected limb as compared with
the non-affected limb
• An arthrogenic gait, which occurs with hip or
knee fusion and is characterized by
exaggerated plantarflexion of the opposite
ankle and circumduction of the stiff leg to
clear the toes
• A gluteus maximus gait due to weakness of
this muscle, producing a posterior thoracic
movement during the stance phase to
maintain hip extension
• Trendelenburg's sign, which is due to
weakness of gluteus medius, congenital
dislocation of the hip or coxa vara, causing an
excessive lateral movement of the thorax
towards the affected limb during its stance
phase of the gait cycle
• A short leg gait producing a lateral shift of the
trunk towards the affected side during the
stance phase
• A drop foot gait. due to weakness of the ankle
and foot dorsi flexors, which causes the patient
to lift the knee higher than the unaffected limb
• A stiff knee or hip gait, where the patient lifts
the affected leg higher than the unaffected leg
in order to clear the ground.
Observation of the patient's altitude and feelings.
The age, gender and ethnicity of patients and their
cultural, occupational and social backgrounds will
all affect the attitudes and feelings they have
towards themselves, their condition and the
clinician. Patients may feel apprehensive, fearful,
embarrassed, restless, resentful, angry or depressed
in relation to their condition and/or the
clinician. They may, for example, have had several,
poSSibly connicting explanations of their problem.
Unrealistic thoughts and beliefs affect the
patient's response to health problems and treatment
(Shorland 1998, Zusman 1998). The clinician
need s to be aware of and sensitive to these attitudes,
and to empathize and communicate appropriately
so as to develop a rapport with his/her
patients and thus enhance their compliance with
the treatment.
Joint tests
Joint tests include integrity tests, active and passive
physiological movements of the joints underlying
the symptoms and other relevant joints, and
measurement of any joint effusion. Passive accessory
movements complete the joint tests and are
described towards the end of the chapter.
Joint integrity tests
SpecifiC tests to determine the stability of the joint
should be carried out early in the examination, a s
any instability found will affect, and may in some
cases contraind icate, further testing. Specific tests
are described in the relevant chapters.
Active and passive physiological joint movement
A deta iled examination is made of the quality and
range of active and passive physiological joint
movement. A physiological movement is defined
as a movement that can be performed actively -
examples include flexion, extension, abduction,
adduction, and medial and lateral rotation of the
hip or glenohumeral joints. These movements are
PHYSICAL EXAMINATION 45
examined actively; in other words, the patient produces
the movement, which tests the function not
only of the joint but also of the muscles that produce
the movement. The movements are also
examined paSSively: the clinician supports the
limb and produces the movement so that the jOint
is examined with the muscles relaxed. This can be
perfomled throughout the whole range of movement
with the patient fully supported, or it can be
performed at the end of the active range of movement,
when it is kno\\rn a s an overpressure.
The function of a joint is to allow full-range
friction-free movement between the bones. A
joint is considered to be normal if there is painless
full active range of movement and if the
resistance to movement felt by the clinician on
applying overpressure is considered to be normal
(Maitland 1991). Joint dysfunction i s manifested
by a reduced (hypomobile) or increased
(hypermobile) range of movement, abnormal
resistance to movement (through the range or at
the end of the range), pain and muscle spasm.
The aims of joint movement examination Oull
1 994) are to:
• Reproduce aU or part of the patien􀄕s symptoms
- the movements that produce symptoms are
then analysed to determine which structures are
being stressed and these are then implicated a s
a source of the symptoms
• Determine the pattern, quality, range,
resistance and pain response for each
movement
• Identify factors that have predisposed to or
arisen from the disorder
• Obtain signs on which to a ssess effectiveness
of treatment (reassessment 'asterisks' or
'markers').
This part of the examination offers confirmatory
evidence (or not) as to the severity and irritability
of the condition that was initially
assessed in the subjective examination. The clinician
must remain open-minded, as the a ssessment
of severity and irritability has quite
commonly to be refined at this stage.
The following information should be noted
d uring the examination of active and passive
joint movement:
46 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• The quality of movement
• The range of movement
• The presence of resistance through the range
of movement and at the end of the range of
movement
• Pain behaviour Oocal and referred ) through
the range
• The occurrence of muscle spasm during the
range of movement.
A movement diagram can be used to depict this
information and is described later in this chapter.
Active physiological joint movement with overpressure.
The procedure for testing active physiological
movement is as follows.
Restillg symptoms prior to each movement need
to be established so that the effect of the movement
on the symptoms can be clearly ascertained.
The active physiological movement is carried
out and the quality of tile active pilysiological movemellt
is observed, noting the smoothness and control
of the movement, any deviation from a normal
pattern of movement, the muscle activity involved
and the tissue tension produced through range.
Movement deviation should be corrected to determine
its relevance to the symptoms. A relevant
movement deviation is one where symptoms are
altered when it is corrected; if symptoms do not
change on movement correction, this suggests
that the deviation is not relevant to the patient's
problem.
The quality of movement can be further tested
by altering part of the patient 's posture during
an active movement ( White & Sahrmann 1994).
For example, cervical movements can be retested
with the clinician paSSively placing the scapula
in various positions to determine the effect of
length and stretch of the sternocleidomastoid,
upper trapezius and levator scapulae.
An alternative method of testing the quality of
movement in more detail is by palpating the proximal
joint as the movement is carried out; for
example, palpation of the cervical spinous processes
during shoulder elevation may reveal excessive
or abnormal spinal movement ( White & Sahm1aru1
1994 ).
Active phYSiolOgical movements test not only
the function of joints but also the function of muscles
and nerves. This interrelationship is well
explained by a movement-system balance ( M SS)
theory put forward by White & Sahrmann ( 1994 ).
It suggests that there is an ideal mode of movement-
system function and that any deviation from
this will be less efficient and more stressful to the
components of the system.
Ideal movement-system function is considered
to be dependent on:
• The maintenance of precise movement of
rotating parts; in other words, the
instantaneous axis of rotation (JAR) follows a
normal path. The pivot point about which the
vertebrae move constantly changes during
physiological movements and its location at
any instant is referred to as the IAR . The shape
of the jOint surfaces and the mobility and
length of soft tissue structures (skin, ligament,
tendon, muscle and nerves) are all thought to
affect the position of the IAR. There is some
support for this theory, as several studies have
found that some pathological conditions have
been associated with an altered IAR (Frankel
et a11 97 1, Penna I et aI 1972, Amevo et aI 1992).
• Normal muscle length. As mentioned earlier
muscles can become shortened or lengthened
and this will affect the quality and range of
movement.
• ormal motor control, Le. the precise and
coordinated action of muscles.
• Normal relative stiffness of contractile and
non-contractile tissue. It is suggested that the
body takes the line of least resistance during
movement -in other words, movement will
occur where resistance is least. Thus, for
instance, areas of hypomobility will often be
compensated by movement at other areas,
which then become hypermobile . An example
of this is seen in patients who have had a
spinal fusion that is associated with
hypermobility at adjacent segments. In the
same way, excessive shoulder girdle elevation
will occur at the scapulothoracic complex in
patients suffering from chronic capsulitis.
With time, these movements become 'learned '
and the soft tissues around the joint adapt to
the new movement patterns such that muscles
may become weak and lengthened or tight
and shortened.
• Normal kinetics, i.e. the movement-system
function of joints proximal and distal to the
site of the symptoms.
A movement abnormality may therefore be
due to severa l factors (White & Sahrmann 1994 ):
• A shortened tissue, which may prevent a
particular movement
• A muscle that is weak and unable to produce
the movement
• A movement 'taken over' by a dominant muscle
- this may occur with muscle paralysis, altered
muscle length-tension relationship, pain
inhibition, repetitive movements or postures
leading to learned movement patterns
• Pain on movement.
joilll rallge is measured clinically using a goniometer
or tape measure, or more commonly it is
done by eye. The reader is directed to other texts
on details of joint measurement (American Academy
of Orthopaedic Surgeons 1990, Gerhardt
1992 ). It is worth mentioning here that range of
movement is influenced by a number of factors age,
gender, occupation, date, time of day, temperature,
emotional status, effort, medication,
injury and disease - and there are wide variations
in range of movement between individuals
(Gerhardt 1992 ).
Paill behaviollr (both local and referred) throughout
the joint range should be recorded. The clinician
asks the patient to indicate the point in the
range where pain is first felt or is increased (if there
is pain present before moving) and then how this
pain is affected by further movement. The clinician
can crudely quantify the pain by asking the patient
to rate the pain on a scale of (}-10, where '0' represents
no pain and '10' represents the maximum
pain ever felt by the patient. The behaviour of the
pain through the range can be clearly documented
using a movement diagram, which is described
later in this chapter.
The eliCiting of any /Illlscle spasm through the
range of movement is noted. Muscle spasm is an
involuntary contraction of muscle as a result of
nerve irritation or secondary to injury of w1derlying
structures, such as bone, joint or muscle, and
occurs in order to prevent movement and further
injury.
PHYSICAL EXAMINATION 47
Overpressllre is applied at the end of a physiological
joi(lt range (as long as the symptoms are
not severe). Overpressure needs to be carried out
carefully if it is to give accurate information on
joint movement. The following guidelines may
help the clinician:
• The patient should be comfortable and
suitably supported
• The clinician should be in a comfortable
position
• The clinician should use his/her body weight
or upper trunk to produce the force, rather
than the intrinsic muscles of the hand, which
can be uncomfortable for the patient
• For accurate direction of the overpressure
force, the clinician's forearm is positioned in
line with the direction of the force
• The force should be applied smoothly and
slowly to the end of the available range
• At the end of the available range, the clinician
then applies small oscillatory movements to
feel the resistance at this position.
There are a variety of ways of applying overpressure
to any one joint movement and the
choice may depend on such factors as the size of
the clinician, the size of the patient and the health
and age of the patient. The overpressures
demonstrated in each of the following chapters
are given as examples only; it is the application
of the principles that is more important.
While applying overpressure, the clinician
should:
• Feel the quality of the movement
• Note the range of further movement
• Feel the resistance through the latter part of
the range and at the end of the range
• ote the behaviour of pain Oocal and referred)
through the overpressed range of movement
• Feel the presence of any muscle spasm
through the range.
Normal movement should be pain-free,
smooth and resistance-free until the later stages
of range when resistance will gradua lly increase
until it limits further movement. Poor quality of
movement could be demonstrated by the
patient's facial expression, e.g. excessive grimac48
NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
ing due to excessive effort or pain; by limb trembling
due to muscle weakness; by substitution
movements elsewhere due to joint restriction or
muscle weakness - for instance, on active hip
flexion the clinician rnay observe lumbar flexion
and posterior rotation of the pelvis.
Movement is limited by one or more of a nUIllber
of factors, such as articular surface contact,
limit of ligamentous, muscle or tendon extensibility
and apposition of soft tissue, and each of
these factors will give a different quality of resistance.
For example, wrist flexion and extension are
limited by increasing tension in the surrounding
Ligaments and muscles; knee nexion is limited by
soft tissue apposition of the calf and thigh muscles;
and elbow extension is limited by bony apposition.
Thus different joints and different movements
have different end feels . The quality of this
resistance felt at the end of range has been categorized
by Cyriax (1982) and Kaltenborn (1989) as
shown in Table 3.3 . The resistance is considered
abnormal if a joint does not have its characteristic
normal end feel, c.g. when knee flexion has a hard
end feel or if the resistance is felt too early or too
late in what is considered normal range of movement.
Additionally, Cyriax describes three abnormal
end feels : empty, springy and muscle spasm
( Table 3.4).
The pain may increase, decrease or stay the
same when overpressure is applied. This is valuable
information as it can confirm the severity of
the patient's pain and can help to determine the
firmness with which manual treatment techni
ques should be applied. A patient whose pain
is eased or remains the same with overpressure
could be treated more firmly than a patient
whose pain is increased.
Table 3.3 Normal end feels (Cyriax 1982, Kaltenborn 1989)
Cyriax Kaltenbom
Table 3.4 Abnormal end feels (Cyriax 1982, Kaltenborn
1989). Abnormality is also recognized if a joint does not have
its characteristic end feel or if the resistance is felt too early
or too late in what is considered the normal range
Cyriax Kallenbom
Empty feel Empty
Springy block
Spasm
Description
No resistance offered due to
severe pain secondary 10
serious pathology such as
fractures, active
inflammatory processes,
neoplasm, etc.
A rebound feel al end
range, e.g. with a tom
meniscus blocking knee
extension
Sudden hard end feel due to
muscle spasm
Modifications to the examination of active physiological
movements. Further information about
the active range of movement can be gained in a
number of ways, as described below.
Repeated 1Il0Velllellts. Repeating a movement
several times may alter the quality and range of
the movement. There may be a gradual increase
in range with repeated movements because of
the effects of hysteresis on the collagen-containing
tissues such as joint capsules, ligaments,
muscles and nerves (Gilmore 1986). If a patient
with a Colles fracture who has recently come out
of plaster were to repeatedly move the wrist into
nexion, the range of movement would probably
increase. There may be an increase or decrease in
symptoms as the movement is repeated.
The change in symptoms with repeated movements
of the spine has been more fully described
by Mc Kenzie (1981, 1990). He divides all
mechanical joint problems of the spine into three
Description
Soft tissue approximation Soft tissue approximation or soft tissue
stretch
Soft end feel, e.g. knee flexion or ankle
dorsiflexion
Capsular feel
Bone to bone
Firm soft tissue stretch
Hard
Fairly hard halt to movement, e.g.
shoulder. elbow or hip rOlation due to
capsular or ligamentous stretching
Abrupt hall to the movement, e.g. elbow
extension
syndromes, postural, dysfunction and derangement.
If movements cause symptoms at the end of
range and repeated movements do not significantly
alter the symptoms, the condition is
classified as a dysfunction syndrome. The syndrome
is thought to be caused by shortening of
scar tissue stich that, when movement puts the
shortened tissue on stretch, pain is produced, but
is relieved as scon as the stretch is taken off. I t
will occur whenever there is inadequate mobilization
following traul'na or spinal surgery
where scar tissue has been laid down during the
healing process. Of course, this scenario is commonly
seen in the peripheral joints following a
period of immobilization, c.g. after a fracture.
If repeated movements produce phenomena
known as pcripheralization and centralization
of symptoms, the condition is classified as a
derangement syndrome. Peripheralization occurs
when syrnptol11s arising from the spine and felt
laterally from the midline or distally (into arms
or legs) are increased or transferred to a more
distal position when certain movements are performed
. Centralization occurs when symptoms
ariSing from the spine and felt laterally from the
midline or distally (into arms or legs) are
reduced or transferred to a more central position
when certain movements are performed. A
patient will exhibit both phenomena - peripheralization
of symptoms on repeating a movement
in one direction and centralization on repeated
movement in the opposite direction. For example,
a patient may develop leg pain (peripheralization)
on repetitive lumbar spine flexion that
eases on repetitive extension (centralization);
sirnilarly, arm pain may be produced on repetitive
cervical flexion that eases on repeated extension
(Fig. 3.11).
The exact mechanisms underlying these phenomena
are unclear. Repeated rnoven'lents in the
spine alter the position of the nucleus pulposus
within the intervertebral disc (Shah et al 1978)
and it is thought that this increases or decreases
pressure on pain-sensitive structures. McKenzie
(1981, 1990) postulated that the nucleus pulposus
may be displaced in any number of directions,
and repeated movements have the effect of
PHYSICAL EXAMINATION 49
increasing this displacement. So, for example, it
is suggested that if the nucleus pulposus lies
anteriorly, then repeated extension would move
the nucleus anteriorly and repeated flexion
would move the nucleus posteriorly. The commonest
nuclear displacement occurs in the posterior
direction following, for example, prolonged
periods of flexion; repetitive flexion is thought to
then move the nucleus pulposus even more posteriorly.
This increases the pressure on the painsensitive
structures around the posterior aspect
of the intervertebral d isc and is thought to cause
referral of pain into the leg (peripheralization).
Repeated extension then causes the nucleus to
move anteriorly and thus relieves the pressure
on the pain-sensitive structures and eases the leg
pain (centralization). While this is a rather simplistic
and inaccurate explanation, particularly in
the light of recent research on the cervical intervertebral
disc (Mercer & Jull 1996), the true
mechanism by which repetitive movements alter
the patient's pain still remains unclear. There are
variOlls degrees of disc derangement and these
are discussed in the chapters on the examination
of the cervical, thoracic and lumbar spine.
Speed of Ihe 1Il0Velllelli. Movements can be carried
out at different speeds and symptoms are
noted. Increasing the speed of movement may be
necessary in order to replicate the patient's functional
restriction and reproduce the patient's
symptoms. For example, a footballer with knee
pain may only feel symptoms when running fast
and symptoms may only be reproduced with
quick movements of the knee, and possibly only
when weight-bearing. One of the reasons that the
speed of the movement can alter symptoms is
because the rate of loading of viscoelastic tissues
affects their extensibility and stiffness (Noyes
et aI 1974).
Combil1ed movemellts. A movement can be
added to another movement; for example, the
glenohumeral joint can be medially or laterally
rotated prior to flexion and extension, and the
knee can be medially or laterally rotated during
flexion and extension movements. A movement
can also be added at the end of another movement.
For example, the hip can be moved into
flexion and then adduction can be added, or
50 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Penpherahzatlon
, .
..
xx xx
x,· ..t.. «􀅭􀅬·:u."􀅮,: x . ,
x \.... " . .'
,'.'.".." !I. '=. '.
,-, *-x ····
• 􀅯,?
xx xx
􀃳-.."..- x
, .
Centralization
Figure 3.1 1 PeripheraHzation and centralization phenomena.
alternatively the hip can be adducted first and
then flexion added. The effect of altering the
sequence of these movements will alter the pain
response because of an alteration of stress on the
various structures in and around the joint.
The same concept of combining movements
can be used in the examination of the spine and
has been fully described by Edwards (1999). For
example, the lumbar spine can be moved into
flexion and then lateral flexion can be added, or it
can be moved into lateral flexion and then flexion
added. Once again, the signs and symptoms will
vary according to the order of these movements.
Recording of the findings of combined movements
for the lumbar spine is illustrated in
Figure 3.12, which demonstrates that left rotaDouble
Headed Arrow
Indicating
Primary Ceo,b,n,,,,on
,
FLEXION " a Y
EXTENSION : 0 Z
B
1 /2 0
PHYSICAL EXAMINATION 51
Thicker Arrow
Indlcallng
Primary Movement
(l) LATERAL FLEXION . 0 W
(A) LATERAL FLEXION It 0 x
(ll ROTATION . 0 v
Figure 3.12 Recording combined movements. Movements can be quickly and easily
recorded using this box. It assumes that the clinician is standing behind the patient so that A
and B refer to anterior, and C and 0 to posterior parts of the body; A and C are left side and
B and 0 are right side. The box depicts the following information: left rotation is limited to half
range; extension and teft lateral flexion in extension range are hall normal range. The
symptoms are in the left posterior part of the body (represented by the cross-hatching).
(From Edwards 1992, with permission.)
tion, extension and left lateral flexion in extension
are limited to half normal range, both symptoms
being produced in the left posterior part of
the body. Following examination of the active
movements and various combined movements,
the patient can be categorized into one of three
patterns:
o Reglllar stretcil pattem. This occurs when the
symptoms are produced on the opposite side
from that to which movement is directed. An
example of this would be if left-sided cervical
spine pain is reproduced on flexion, lateral
flexion to the right and rotation to the right,
and all other movements are full and painfree.
In this case, the patient is said to have a
regular stretch pattern. The term stretch is
used to describe the general stretch of spinal
structures, in this example on the left-hand
side of the cervical spine.
• Regular compressi011 pattenI. This occurs when
the symptoms are reproduced on the side to
which the movement is directed. If left-sided
cervical spine pain is reproduced on
extension, left lateral flexion and left rotation
and all other movements are full and painfree,
the patient is said to have a regular
compression pattern. The term compression is
used to describe the general compression of
spinal structures, in this example on the lefthand
side of the cervical spine.
o Irreglllar pattem. Patients who do not clearly fit
into a regular stretch or compression pattern
are categorized as having an irregular pattern.
In this case, symptoms are provoked by a
mixture of stretching and compressing
movements.
This information, along with the severity, irritability
and nature (SIN) factors, can help to direct
52 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
t re atme nt. The cli ni dan can positio n the p atie nt i n
s tich a way as to i ncre ase o rd e cre ase the st retching
o r comp ressio n effe ct du ri ng p alp atio n te ch ni ques .
Fo r example, accesso ry mo veme nts call be carried
out with the spi ne at the limit of a physiolo gi cal
moveme nt o ri n a positio n of maxi rnum comfo rt.
ne cess ary whe n symptoms h ave not bee n rep ro du
ced by the p revious moveme nts described
abov e o ri f the patie nt h as n'loment ary symptoms.
Differwlialioll lesls. Thes e tests are useful to disti
nguish betwee n two st ru ctu res suspe ct ed to be a
sou rce of the symptoms ( M aitland 1986, 1991). A
positio n that p rovokes symptoms is held co nst ant
and the n a moveme nt th at i ncre ases o r de cre ases
the st ress o n o ne of the st ru ctu res is added and the
effe ct o n symptoms is not ed . Fo r ex ample, i n the
st rai ght le g raise test, hip flexio n with k nee exte nsio
n is held co nst ant, whi ch st ret ches the s ci ati c
ne rve and the hip exte nso r muscles (particul arly
h amst ri ngs), and do rsi flexio n of the ankle is the n
add ed. n,is i ncreases the st ret ch of the s ci ati c
ne rve without alte ri ng the le ngth of the hip
exte nso rs. Incre ased o r redu ced symptoms o n
do rsiflexio n o r plant arfIexio n would impli cate the
s ci atic ne rve.
Compressioll or distraction. Comp ressio n o r dist
ractio n of the joi nt arti cul ar su rf aces can be
added du ri ng the moveme nt. Fo r ex ample, comp
ressio n o r dist ractio n of the shoulde r joi nt can
be applied with p assive shoulde r flexio n. If the
lesio n is i nt ra-arti cul ar the n the symptoms are
ofte n m ade wo rse by comp ressio n and e ased by
dist ractio n ( M aitland 1985).
SlIstnilled lIIovel1lellfs. A moveme nt is held at
e nd range o r at a poi nt i n range and the effe cts o n
symptoms are noted. In this positio n, tissue
creep will o ccu r, whe reby the soft tissue s t ru ctu
res th at are bei ng st ret ched le ngthe n ( K azari an
1972). Range of moveme nt would the refo re
i ncre ase i n no rm al tissue .
l11juring movemellt. The moveme nt carried out at
the time of i nju ry can be tested . This m ay be
A nothe r ex ample is the additio n of ce rvi cal
flexio n and exte nsio n whe n the p atie nt is i n lum b
ar spi ne flexio n and feels p ai n ove r the poste rio r
thi gh. Incre ased thigh p ai n o n ce rvi cal flexio n,
Table 3.5 Capsular patterns (Cyriax 1 982). Movements are listed in descending order of limitation
Joint Movement restriction
Temporomandibular jOint
Cervical spine
Thoracic and lumbar spine
Sacroiliac, pubic symphysis and sacrococcygeal joints
Sternoclavicular and acromioclavicular joints
Shoulder joint
Elbow joint
Inferior radioulnar joint
Wrist joint
Carpometacarpal joint of the thumb
Thumb and finger joints
Hip joint
Knee joint
Tibiofibular joints
Ankle joint
Talocalcaneal jOint
Midtarsal joint
Metatarsophalangeal joint of the big toe
Metatarsophalangeal joint of the other four toes
Opening mouth
Side flexion and rotation are equally limited; flexion is full but
painful, and extension is limited
Difficult to detect capsular pattern
Pain when the jOint is stressed
Pain at extremes of range
Lateral rotation then abduction then medial rotation
More limitation of flexion than extension
Full range but pain at extremes of range
Flexion and extension equally limited
Full flexion, limited abduction and extension
More limitation of flexion than extension
Medial rotalion, extension, abduction, flexion, then lateral rolalion
Gross limitation of flexion with slight limitation of extension
Rotation full and painless in early stages
Pain when the joint is stressed
More limitation of plantarflexion than dorsiflexion
Limitation of inversion
Limitation of dorSiflexion, plantarflexion, adduction and medial
rotation; abduction and lateral rotation are full range
More limitation of extension than flexion
Variable; tend to fix in extension with interphalangeal joints flexed
reduced on cervical extension, can help to differentiate
symptoms originating from neural tissue and
those from other structures around the lumbar
spine.
Capsular pallems. In arthritic joint conditions
affecting the capsule of the jOint, the range of
movement can become restricted in various directions
and to different degrees. Each joint has a typical
pattern of restTicted movement (Table 3.5) and,
because the jOint capsule is involved, the phenomenon
is known as a capsular pattern (Cyriax 1982).
Where the capsular pattern involves a number of
movements, these are listed in descending order of
limitation; for instance, lateral rotation is the most
limited range in the shoulder capsular pattern,
followed by abduction and then medial rotation.
Passive physiological joint movement. A comparison
of the response of symptoms to the
active and passive rnovcments can help to determine
whether the structure at fault is non-contractile
(articular) or contractile (extra-articular)
(Cyriax 1982). If the lesion is of non-contractile
tissue, such as ligamentous tissue, then active
and passive movements will be painful and/or
restricted in the same direction. For instance, if
the anterior joint capsule of the proximal interphalangeal
joint of the index finger is shortened,
there will be pain and/or restriction of finger
extension, whether this movel'nent is carried out
actively or passively. If the lesion is in a contractile
tissue (i.e. muscle) then active and passive
movements are painful and/or restricted in
opposite directions. For example, a muscle lesion
in the anterior fibres of deltoid will be painful on
active flexion of the shoulder joint and on pasive
extension of the shoulder.
The range of active phYSiological movements
of the spine is the accumulated movement at a
number of vertebral segments and is thus a
rather crude measure of range that does not in
any way localize which segment is affected. For
this reason, passive physiological intervertebral
movements (PPIVMs) are carried out to determine
the range of movement at each intervertebral
level. To do this, the clinician feels the
movement of adjacent spinous processes, articular
pillars or transverse processes during physiological
movements. A brief reminder of how to
PHYSICAL EXAMINATION 53
perform the technique is given in each relevant
chapter and a full description can be found in
Maitland ( 1986). A quick and easy method of
record ing PPIVMs is shown in Figure 3.13. This
method can also be used for a range of active
movements.
Joint effusion
The circumference of the joint is measured using
a tape measure and the left and right sides are
compared.
At other joints
It is not always necessary to examine every physiological
movement available at other joints in
order to deterrnine whether it is normal. I f a joint
is not suspected to be a source of symptoms but
needs to be quickly examined, then just a few
movements can be carried out to eliminate the
joint as a source of the symptoms; these are
known as 'clearing tests'. A joint is considered
normal if the clearing test movements with overpressure
are full range (or equal to the opposite
side) and symptom-free. If symptoms are produced
or there is reduced range of movement,
the joint cannot be considered normal and must
be more fully examined. The suggested movements
to clear each joint are given in Table 3.6
and generally are the more stressful physiological
movements. It should be noted that, since
physiological movements of the spine do not
specifically stress individual segments, it is necessary
also to examine the accessory movements
of the spine before it can be cleared.
Muscle tests
In the last few years, there has been considerable
interest in muscle examination, assessment and
treatment (Janda 1986, Jull & Janda 1 987, Jull &
Richardson 1994, White & Sahrmann 1994, Hides
1995, Hodges 1995, Hides et al 1996, Hodges &
Richardson 1996), and a t the time of writing
there is much research activity in this area.
Muscle function was classi fied by Bergmark
( 1989), in relation to the lumbar spine, into local
54 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
A
B
Left
rotation
Left
lateral
flexion
Left
rotatIOn
FlexIon
Extension
Flexion
RIght
rotation
Left--L-----------------�----------------�--� lateral
flexion
ExtensIon
Right
rotation
R,ght
lateral
flexion
R,ght
lateral
flexion
Figure 3.13 A Recording passive physiological interver1ebral movements
(PPIVMs). B Example of a completed PPIVM recording for a segmental leveL
Interpretation: there is t range of flexion and right lateral flexion and t range of left
rotation. There is no restriction of extension.
Table 3.6 Clearing tests
Joint Physiological movement
Quadrants
Rotation and quadrants
Flexion and quadrants
Anterior and posterior gapping
PHYSICAL EXAMINATION 55
Accessory movement
All movements
All movements
All movements
Cervical spine
Thoracic spine
Lumbar spine
Sacroiliac joint
Shoulder girdle
Shoulder joint
Acromioclavicular joint
Sternoclavicular joint
Elbow joint
Elevation, depression, protraction and retraction
Flexion and hand behind back
AU movements
All movements
Extension, extension/abduction, extension/adduction and pronation!
supination
Wrist joint
Thumb
Fingers
Flexion/ex1ension and radial/ulnar deviation
Extension carpometacarpal and thumb opposition
Flexion at interphalangeal joints and grip
Hip joint Squat and hip quadrant
Knee joint
Ankle joint
Patellofemoral joint
Temporomandibular joint
Extension, extension/abduction, extension/adduction and squat
Plantarflexion/dorsiflexion and inversion/eversion
MediaViateral glide and cephalad/caudad glide
Open/close jaw, side to side movement, protraction/retraction Posteroanterior glide
and medial glide
and global systems. This classification system was
further refined by Comerford & Kinetic Control
(2000) which expanded the system to include all
muscles and increased muscle function into three
broad headings: local stabilizer, global stabilizer
and global mobilizer. Generally speaking the local
stabilizer muscles maintain a low, continuous activation
in all joint positions regardless of the direction
of joint motion which tends to become
inhibited when dysfunctional, examples include
vastus medialis oblique, the deep neck flexors and
transversus abdominis; the global stabilizers
become activated on specific directions of joint
movement particularly eccentric control and rotation
movement and when dysfunctional tend to
become long and weak, examples include gluteus
medius, superficial multifidus and internal and
external obliques; finally the global mobilizers are
activated to produce specific directions of joint
movement particularly concentric movement and
when dyshmctional tend to become short and
overactive, examples include rectus abciominis,
hamstrings, and levator scapula. Further characteristics
of each classification are given in Table 3.7.
It should be noted that a muscle may be allocated
into more that one category; for example, serratus
anterior and longus colli could be considered local
stabilizers and subscapularis could fall into local
or global stabilizer; middle and lower trapezius,
the deep cervical flexors and latissimus dorsi
could be considered to be global stabilizer muscles.
In addition sternocleidomastoid and pectoralis
major and minor are considered to be global
mobilizers. Normal muscle function requires normal
muscle strength, length and coordination. A
muscle does not function in isolation - it is also
dependent on the normality of its antagonist muscle
as well as other local and distant muscle
groups. The effect of muscle dysfunction can
therefore be widespread throughout the musculoskeletal
system.
There is a close functional relationship
between agonist and antagonist muscles. Muscle
activation is associated with inhibition of its
antagonist so that overactivation of a muscle
group, as occurs in muscle spasm, will be associated
with inhibition of the antagonist group,
which may then become weak. This situation
produces what is known as muscle imbalance,
i.e. a disruption of the coordinated interplay of
muscles. Muscle imbalance can occur where a
muscle becomes shortened and alters the position
of the joint in such a way that the antagonist
muscle is elongated and then becomes weak.
Another example is where there is reflex inhibition
of muscle and weakness in the presence of
pain and/or injury, such as is seen with patellofemoral
joint pain (Mariani & Caruso 1979,
56 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Table 3.7 Classification 01 muscle function (Comeriord & Kinetic Control 2000)
Local stabilizer
Examples:
Transversus abdominis
Deep lumbar multifidus
Psoas major (posterior fasciculi)
Vastus medialis oblique
Middle & lower trapezius
Deep celVieal flexors
Function and characteristics:
Increase muscle stiffness to control
segmental movement
Controls the neutral joint position.
Contraction does not produce change
in length and so does not produce
movement. Proprioceptive function:
information on joint position, range
and rate of movement
Activity is independent of direction
of movement
Continuous activation throughout
movement
Dysfunction:
Reduced muscle stiffness, loss of
joint neutral position (segmental
contrOl). Delayed timing and
recruitment
Becomes inhibited
local inhibition
Loss of segmental control
Global stabilizer
Intemal & external obliques
Superficial multifidus
Spinalis
Gluteus medius
Serratus anterior
Longus colli (oblique fibres)
Generates force to control range of movement
Controls particularly the inner and outer ranges
of movement. Tends to contract eccentrically
for low load deceleration of momentum and for
rotational control
Activity is direction dependent
Non-continuous activity
Poor control of inner and outer ranges of
movement. poor eccentric control and rotation
dissociation. Inner and outer range weakness
of muscle
Reduced low threshold tonic recruitment
Global imbalance
Increased length and inhibited stabilizing
muscles result in underpuU at a motion
segment
Global mobilizer
Rectus abdominis
Iliocostalis
Hamstrings
Latissimus dorsi
Levator scapulae
Scalenus anterior, medius &
posterior
Generates torque to produce
movement
Produces joint movement,
especially movements in the
sagittal plane. Tends to contract
concentrically. Absorbs shock
Activity is direction dependent
Non-continuous activity
Muscle spasm. Loss of muscle
length (shortened). limiting
accessory andlor physiological
range of movement
Overactive low threshold. low load
recruitment
Global imbalance
Shortened and overactive
mobilizing muscles result in
overpuU at a motion segment
Voight & Wieder 1991) and low back pain (Hides
1995, Hodges 1995). Muscle testing therefore
involves examination of the strength and length
of both agonist and antagonist muscle groups.
Table 3.8 Grades of muscle strength (Medical Research
Council 1 976)
The following tests are commonly used to
assess muscle function: muscle strength, muscle
control, muscle length, isometric muscle testing,
muscle bulk and specific diagnostic muscle tests.
Muscle strength
This is usually tested manually with an isotonic
contraction through the available range of movement
and graded according to the Medjcal
Research Council (MRC) scale (Medical Research
Grade
o
1
2
3
4
5
Muscle activity
No contraction
Flicker or trace of contraction
Active movement. with gravity eliminated
Active movement against gravity
Active movement against gravity and resistance
Normal power
Council 197 6) shown in Table 3.8. Groups of muscles
are tested, as weU as more specific testing of
individual muscles. The strength of a muscle contraction
will depend on the age, gender, build and
usual level of physical activity of the patient.
Details of these tests can be found in various
texts, including Daniels & Worthingham (1 986),
Cole et al (1988) and Kendall et al ( 1 993).
Some muscles are thought to be prone to inhibition
and weakness and are shown in Table 3.2
Qull & Janda 1987, Janda 1994, Comerford &
Kinetic Control 2000). They are characterized by
hypotonia, decreased strength and delayed activation
with atrophy over a prolonged period of
time Qanda 1993). While the mechanism behind
this process is still unclear, it seems reasonable to
suggest that the strength of these muscles in particular
should be examined. White & Sahrmann
(1994) suggest that the postural muscles tend to
lengthen as a result of poor posture and that this
occurs because the muscle rests in an elongated
position. The muscles then appear weak when
tested in a shortened position, although their
peak tension in outer range is actually larger
than the peak tension generated by a 'normal
length' muscle (Fig. 3.14) (Gossman et al 1982).
Crawford (1 973) found that the peak tension of
the lengthened muscle in outer range may be
35% greater than normal muscle. In addition,
muscles which lose their length will, over a
period of time, become weak. Methods of testing
the strength of individual muscles are outlined in
to
§
8
ca
'iii 6
c J!l
Q) 4
>
U ..: 2
Shortened ......... .
Conlrol--­
Lengthened- --.
A
.'
... .....
" .
B / /
, /
: /
/
,
/
/
/
/
/
/ /
/
/
/
80 90 100 1 1 0
% muscle belly length of control
Figure 3.14 Effects of muscle length on muscle strength.
The normal length-tension curve (control) moves to the right
for a lengthened muscle, giving it a peak tension some 35%
greater than the control (point A). When tested in an inner
range position, however (point B), the muscle tests weaker
than normal. (From Norris 1 995, with permission.)
PHYSICAL EXAMINATION 57
Figure 3.15. The patient is asked to move against
the resistance applied by the clinician.
Muscle control
Muscle control is tested by observing the recruitment
and coordination of muscles during active
movements. Some of these movements have
already been carried out (under jOint tests) but
there are other sp cifie tests, which will be carried
out here. The relative strength, endurance
and control of muscles are considered to be more
important than the overall strength of a muscle
or muscle group Qull & Janda 1 987, Janda 1 994,
Jull & Richardson 1994, White & Sahrmann
1994). Relative strength is assessed by observing
the pattern of muscle recruitment and the quality
of movement and by palpating muscle activity in
various pOSitions. It should be noted that this
relies on the observational skills of the clinician.
A common term within the concept of muscle
control is recruitment (or activation), which
refers to timed onset of muscle activity. This is
often tested against gravity, which would be
equivalent to Grade 3 on the MRC scale.
Muscle length
Muscle length should be tested, in particular those
muscles that tend to become tight and thus lose
their extenSibility Qull & Janda 1987, Janda 1994,
Comerford & Kinetic Control 2000) (Table 3.2).
These muscles are characterized by hypertonia,
increased strength and quickened activation time
Qanda 1993). Methods of testing the length of individual
muscles are outlined in Figure 3.16. Muscle
length is tested by the clinician stabilizing one end
of the muscle and slowly and smoothly moving
the body part to stretch the muscle. The following
information should be noted:
• The quality of movement
• The range of movement
• The presence of resistance through the range
of movement and at the end of the range of
movement; the quality of the resistance may
identify whether muscle, joint or neural
tissues are limiting the movement
• Pain behaviour (local and referred) through
the range.
A
C
E
58 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 3.15 Testing the strength of individual muscles prone to become weak (Jull & Janda 1 987, Cole at a1 1 988, Janda
1 994).
A Serratus anterior. The patient lies supine with the shoulder flexed to 90° and the elbow in lull flexion. Resistance is applied
to shoulder girdle protraction.
B Subscapularis. In supine with the shoulder in 90° abduction and the elbow flexed to 90°. A towel is placed underneath the
upper arm so thaI the humerus is in the scapular plane. The clinician gently resists medial rotation of the upper arm. The
subscapularis tendon can be palpated in the axilla, just anterior to the posterior border. There should be no scapular movement
or alteration in the abduction position.
C Lower fibres of trapezius. In prone lie with the arm by the side and the glenohumeral joint placed in medial rotation. the
clinician passively moves the coracoid process away from the plinth such that the head of the humerus and body of scapula lie
horizontal. The patient is asked to genlly hold this position for 1 0 seconds and repeat this 10 times. Poor recruitment of lower
fibres of trapezius would be suspected from an inability to hold this position without substitution by other muscles such as
levator scapulae, rhomboid major and minor or latissimus dorsi.
B
D
F
G
PHYSICAL EXAMINATION 59
Figure 3.15 (cont'd) 0 Deep cervical flexors. The patient lies supine and is asked to tuck the chin in. If there is poor
recruitment the sternocleidomastoid initiates the movement.
E Gluteus maxlmus. The clinician resists hip extension. A normal pattern would be hamstring and gluteus maximus acting as
prime movers and the erector spinae stabilizing the lumbar spine and pelvis. Contraction of gluteus maximus is delayed when it
is weak. Alternatively, the therapist can passively extend the hip into an inner range position and ask the patient to hold this
position isometrically (Jult & Richardson 1 994).
F Posterior gluteus medius. The patient is asked 10 actively abduct the uppermost leg. Resistance can be added by the
clinician. Lateral rotation of the hip may indicate excessive activity of tensor fasciae latae, and using hip flexors to produce the
movement may indicate a weakness in the lateral pelvic muscles. Other substitution movements include lateral flexion of the
trunk or backward rotation of the pelvis. Inner range weakness is tested by passively abducting the hip; if the range is greater
than the active abduction movement, this indicates inner range weakness.
G Gluteus minim us. The clinician resists medial rotation of the hip.
H Vastus lateralis, medialis and Intermedius. The clinician resists knee extension.
I Tibialis anterior. The clinician resists ankle dorsiflexion and inversion.
J Peroneus longus and brevis. The clinician resists ankle eversion.
weakness (Janda 1993).
Isometric muscle testing
J
Reduced muscle length, i.e. muscle shortness
or tightness, occurs when the muscle cannot be
stretched to its normal length. This state may
occur with overuse, which causes the muscle initially
to become short and strong but later, over a
period of time, to become weak (because of
reduced nutrition). This state is known as stretch
This can differentiate symptoms arIsmg from
inert and contractile tissues. The joint is put into
a resting position (so that the inert structures are
H
A
60 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
c
B
Figure 3.16 Testing the length of individual muscles prone
to become short (Jull & Janda 1 987, Cole al at 1 988, Kendall
81 a1 1 993, Janda 1 994).
A levator scapulae. A passive stretch is applied by
contralateral lateral flexion and rolation with flexion of the
neck and shoulder girdle depression. Restricted range of
movement and tenderness on palpation over the insertion of
levator scapula indicates tightness of the muscle.
B Upper trapezius. A passive stretch is applied by passive
conlralateral lateral flexion and flexion of the neck with
shoulder girdle depression. Restricted range of movement
indicates tightness of the muscle.
C Sternocleidomastoid. The clinician tucks the chin in and
then laterally lIexes the head away and rotates towards the
side of testing. The clavicle is stabilized with the other hand.
D Pectoralis major. (i) Clavicular fibres - the clinician
stabilizes the trunk and abducts the shoulder to 90°. Passive
overpressure of horizontal extension will be limited in range
and the tendon becomes taut if there is tightness of this
muscle. (H) Sternocostal fibres - the clinician elevates the
shoulder fully. Restricted range of movement and the tendon
becoming taut indicates tightness of this muscle.
E Pectoralis minor. With the patient in supine and arm by
side, the coracoid is found to be pulled anteriorly and
inferiorly if there is a contracture 01 this muscle. In addition,
the posterior edge of the acromion may rest further from the
plinth on the affected side.
F Scalenes. The clinician extends the head and laterally
flexes away and rotates towards the side of testing for
anterior scalene; neutral rotation tests the middle fibres and
contralateral rotation tests the posterior scalene muscle.
G Deep occipital muscles. The right hand passively ftexes
the upper cervical spine while palpating the deep occipital
muscles with the left hand. Tightness on palpation indicates
tightness of these muscles.
H Erector spinae. The patient slumps the shoulders towards
the groin. Lack of flattening of the lumbar lordosis may
indicate tightness (Lewi! 1991).
PHYSICAL EXAMINATION 61
Di Oii
E F
G H
L
62 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
J
Kji
M
PHYSICAL EXAMINATION 63
N
Figure 3.16 (cont'd) I Quadratus lumborum. The patient pushes up sideways as far as possible without movement of the
pelvis. Limited range of movement, lack of curvature in the lumbar spine andlor abnormal tension on palpation Gust above the
iliac crest and lateral to erector spinae) indicate tightness of the muscle.
J latissimus dorsi. With the patient in crook lie with the lumbar spine lIat against the plinth and the glenohumeral joints
laterally rOlaled. the patient is asked to elevate the arms through flexion. Shortness of latissimus dorsi is evidenced by an
inability to maintain the lumbar spine in against the plinth and/or inability to fully elevate the arms.
K Piriformis. (i)The clinician passively flexes the hip to 900, adducts it and then adds lateral rotation to the hip feeling the
resistance to the limit of the movement. There should be around 450 of lateral rotation. (ii) Piriformis can be palpated if it is tight
by applying deep pressure at the point at which an imaginary line between the iliac crest and ischial tuberosity crosses a line
between the posterior superior iliac spine and the greater trochanter.
o
L Iliopsoas, rectus femoris and tensor fasciae latae. The left leg is stabilized against the clinician's side. The free leg witt be
flexed at the hip if there is tightness of itiopsoas. An extended knee indicates tight rectus femoris. Abduction of the hip, lateral
deviation of the patella and a well-defined groove on the lateral aspect of the thigh indicate tight tensor fasciae latae and itiotibial
band. Overpressure to each of these movements, including hip abduction for the short adductors, will confirm any tightness of
these muscles.
M Hamstrings. With the patient lying supine, the clinician passively flexes the hip while holding down the other leg.
N Tibialis posterior. The clinician dorsiflexes the ankle joint and everts the forefoot. Limited range of movement indicates
tightness of the muscle.
o Gastrocnemius and soleus. Gastrocnemius length can be lested by the range of ankle dorsiflexion with the knee extended
and then flexed. If the range increases when the knee is flexed, this indicates tightness of gastrocnemius.
relaxed) and the patient is asked to hold this position
against the resistance of the clinician. If symptoms
are reproduced on contraction, this suggests
that symptoms are coming from the muscle. It
must be appreciated that there will be some shearing
and compression of the inert structures, so the
test is not always conclusive. In addition, the clinician
observes the quality of the muscle contraction
to hold this position (this can be done with the
patien􀄕s eyes shut). The patient may, for example,
be unable to prevent the joint from moving or may
hold with excessive muscle activity; either of these
circumstances would suggest a neuromuscular
dysfunction. For a more thorough examination of
muscle function the patient is asked to hold position
in various parts of the physiological range.
Cyriax (1982) describes six possible responses
to isometric muscle testing:
• Strong and painless - normal
• Strong and painful - suggests minor lesion of
muscJe or tendon, e.g. tennis elbow
• Weak and painless - complete rupture of
muscle or tendon or disorder of the nervous
system
• Weak and painful - suggests gross lesion, e.g.
fracture of patella
• All movements painful - suggests emotional
hypersensitivity
• Painful on repetition - suggests intermittent
claudication.
Muscle bulk
The clinician measures with a tape measure the
circumference of the muscle bulk at a measured
distance from a bony point and compares the left
64 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
and right sides. This test attempts to measure the
size of a muscle in order to measure its strength.
There are a number of difficulties with this
method. Firstly, it is not a pure measure of muscle
size since it includes the subcutaneous fat
(Stokes & Young 1 986). Secondly, it assumes that
the muscle fibres are running at right angles to
the limb (so that the physiological cross-sectional
area is being measured) but this is not the case
for most muscles, which have a pennate structure
(Newham 1 997). Thirdly, there is no relationship
between limb girth and muscle girth: a
22-33% reduction in the cross-sectional area of
the quad riceps (measured by ultrasound scanning)
may cause only a 5% reduction in the circumference
of the limb using a tape measure
(Young et aI 1982). The test is therefore of limited
value.
Diagnostic muscle tests
These are particular tests that attempt to diagnose
a muscle dysfunction. Examples include
Speed's test for bicipital tendinitis and the drop
arm test for rotator cuff tear (Magee 1992).
Neurological tests
Neurological examination involves examining
the integrity and the mobility of the nervous system
and carrying out specific diagnostic tests.
These tests should be carried out whenever the
clinician slispects the nervous system to be a
source of symptoms.
Integrity of the nervous system
The effects of compression of the peripheral
nervous system are:
/1--- From C.4
To phrnric "".'·----.:�:;\..,dI To scofrfli Suprascapular
Lo'eTal ptctaral ••, .,·-11
RQdial --···-..-r�·
UlnD'
(utantous "" tit
0/ /or,o,,,"
iHtdja/ Lo,vtT
(utontOllS Illbuopular nerve
""tit of a,m
Mediol
cord
T.,
in",·
costal ntTtIt'
Medial
ptctorol ""tit
Uppn
subuapular nerve
Figure 3.17 A plan of the brachial plexus showing the nerve roots and the formation of the
peripheral nerves. (From Williams et a1 1 995, with permission.)
• Reduced sensory input
• Reduced motor impulses along the nerve
• Reflex changes
• Pain usually in the myotome or dermatome
distribution
• Autonomic disturbance such as
hyperaesthesia, paraesthesia or altered
vasomotor tone.
Reduced sensory input. Sensory changes are due
to a lesion of the sensory nerves anyv.'here from
the spinal nerve foot to its terminal branches in the
skin. Figure 3.17 serves to illustrate this. A knowledge
of the cutaneous distribution of nerve roots
(derma tomes) and peripheral nerves enables the
clinician to distinguish the sensory loss due to a
root lesion from that due to a peripheral nerve
lesion. The cutaneous nerve distribution and dermatome
areas are shown in Figures 3.18-3.21. It
I'nust be remembered, however, that there is a
great deal of variability from person to person and
an overlap between the cutaneous supply of
peripheral nen'es (Walton 1989) and dermatome
areas (Hockaday & Whitty 1967). A sclerotome is
the region of bone supplied by one nerve root; the
areas are shown in Figure 3.22 (Inman & Saunders
1944, Grieve 1981).
Reduced motor impulses along the nerve. A loss of
muscle strength is indicative of either a lesion of
the motor nerve supply to the muscle(s) - located
anywhere from the spinal cord to its terminal
brand1es in the muscle - or a lesion of the muscle
itself. If the lesion occurs at nerve root level then all
the muscles supplied by the nerve root (the
myotome) will be affected. If the lesion occurs in a
peripheral nerve then the muscles that it supplies
will be affected. A working knowledge of the muscular
distribution of nerve roots (myotomes) and
peripheral nerves enables the clinician to distiJlguish
the motor loss due to a root lesion from that
due to a peripheral nerve lesion. The peripheral
nerve distribution and myotomes are shown in
Table 3.9 and Figures 3.23-3.25. It should be noted
that most muscles in the limbs are umervated by
more than one nerve root (myotome) and that the
predominant segmental origin is given.
Over a period of time of motor nerve impairment
there will be muscle a trophy and weak-
PHYSICAL EXAMINATION 65
ness, as is seen for example in the thenar eminence
in carpal tunnel syndrome.
Reflex changes. The deep tendon reflexes test the
integrity of the spinal reflex arc consisting of an
afferent or sensory neurone and an efferent or
motor neurone. The reflexes test individual nerve
roots as shown in Table 3.9. If there is sufficient
compression of the nerve, the reflex will be absent;
if there is only some compression, there will be a
diminished reflex. An increased reflex response is
indicative of an upper motor neurone lesion and is
confirmed by the plantar response; if this is positive,
the clinician needs to refer the patient to an
appropriate medical practitioner.
Procedure for examining the integrity of the nervous
system. In order to examine the integrity of
the peripheral nerves, three tests are carried out:
skin sensation, muscle strength and deep tendon
reflexes.
If a nerve root lesion is suspected, the tests carried
out are referred to as dermatomal (area of skin
supplied by one nerve root), myotomal (group of
muscles supplied by one nerve root) and reflexal.
Testing skin sensation. A commonly used standardized
method of assessment of light touch to
deep pressure is to use monofilaments (SemmesWeinstein
or West). Each monofilament relates
to a degree of pressure, is repeatable and scales
from loss of protective sensation through diminished
light touch to normal sensation (Callahan
1995). Light touch may also be tested manually
using cotton wool, which is placed (not moved)
on the skin with the patient's eyes shut (or blindfolded),
assessing one segment at a time. The
sensate area is assessed first to show the patient
what to expect. The patient has to say when and
where they are being touched. Pain sensation can
then be tested using a pinprick; the patient
assesses the painhd quality of this stimulus
rather than the sensation of pressure or touch.
The timing of the stimuli should be irregular so
that the patient does not know when to expect
the next touch or pinprick. Most sensation tests
are subjective and require careful analysis. Other
sensations that can be tested if an abnormality
has been found are deep pressure, two-point discrimination,
vibration sensation, hotl cold sensation,
proprioception and stereognosis.
66 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Greater
auricular --1􀀝i,i;:tC.;,
3
Dorsal rami
of C.3. 4. 5
-"-"",-Maxillary
Mandibular
__ Tronwerse
cutaneous of
"uk, C.Z, .1
Supraclavicular,
C.3. 4 A
B
Figure 3.18 A Cutaneous nerve supply to the face, head and neck.
Note that the three branches of the Vlh cranial nerve (ophthalmic.
maxillary and mandibular divisions) supply the skin of the face,
including thaI over the temporomandibular joint. (From Williams at al
1 995, with permission.) B Dermatomes of the head and neck. (From
Grieve 1 9 8 1 , with permission.)
Any abnormality of sensation is mapped out
on the body chart. Any positive finding must be
re-examined at each attendance so that any progressive
neurological impairment can be identified
and the necessary action taken. For
instance, progressive signs occurring with a prolapsed
intervertebral disc pressing on the spinal
cord or cauda equina require immediate surgery.
Testing muscle strength. Muscle strength testing
consists of carrying out an isometric contraction of
Antuior (,""tantOUI ••
••
br(ment' of,'
thoradc rtt'rtltI • • • • •
An'trior ell/afltOIlI bronl'lI .•
0/ i/iohypogoJtric ",rvt
lIio.irtgllinQI "" V,'
/' L2
B
PHYSICAL EXAMINATION 67
S"'f'raciovicu/ar Nt'rWI
"/t􀇽, ' ,' 􀇼
. \
" LAural cutOrttOUI .' brondlu of thoracic
ulnal CUtOllt'DUJ
" ; b,onch" 0/ twd/th
" thoracic nuvt
. _. Lalnal/emfffoi
c"tanNUI ""V'
- • Fnrtoral hr01tch of gmitofemoral
ntnJe
A
Figure 3.19 A Cutaneous nerve supply to the trunk. (From
Williams et al 1995, with permission.) B Dermatomes of the
trunk. (From Grieve 1 9 9 1 , with permission.)
68 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
.<; .. " ... <1 ... uw'"., C.l. 􀇽
J/-�-.- f 'p"" ':: :::t;,'􀅫"tlH" of
J .. '''to' ' .... 􀇾I1,''1. T.J --j,--+:-
,\-I,d,,,/ ,,,,,, .. ,,, ... al l''''''''"'_ (',Il, T.'
\f,J, .. 1 ' .. I ........... o! ., .... --+--1l--\. \ C.Il, T.t
I ..... ·" III/t."I. nt .... to .. ' 0/
II' '''. ",j, 6
1'1>1 ...... b<"",11 of .. ml, ....
l'"t"'II' />",,,,11 01 .1"If' /j'-'lL.-J{\. ·I'<;I-.S .. ",·firull ll· .... ,Io .. /,od".I, ('.,. 8
VI_., C.1I, T.I £'P<-1i1ir���􀁀.M"" "", C.6, 7. II�"",L-\-
"
,
\
\
\
,
,
,
, I ('/>
,
,
,
,
,
/
/
--,
, / C􀁣
"
'"
",
,,'
I 1 \
" \ j "
i: \C 􀅪
" ,
, , ,
.􀇼. I
, \
, ,
, \
1 ('1 \
, ' \(-/\ \
B
UI ..... , C.8, T.t
"''''''''', C.6, 7. 1
A
Figure 3.20 A Cutaneous nerve supply to the upper limb.
e Dermalomes of the upper limb. There is minimal overlap
across the heavy black lines; considerable overlap occurs
across the interrupted lines. (From Williams et a1 1995, with
permission.)
I\--'-:.--------Suhcoslaf, T.n
􀁉 Femoral branth of
􀃧...:::+ __ ,tllito!tma,a!. --j""_--j_ L.r, :1
llia.i􀃨ujnal, L.I _-/_- _-\ ,_*_
LAural tutanMIU
0/ thigh,
L.il, 3
Obll/,0101, L.rI, ]. ., 􀃲I-__+ _ _ +_
lIftdial (lmJ intnmtdi(J/t +---t(
liranft/II' 0/ thigh, L,il, 3 -'
1"/'QPaltllll' branch
of lophtno"u
,_ __- -fl--+L,Alt'o! (II/anNUl 0/ all! of /ti. t" L.S. S.I, :l
1--'+-- SOphtrlOIlJ, L.3. f ---\---1r-
􀁊􀁋i;T-􀁌I=::=: Su,al, S.l, Z
If. Dup pnMta/
Figure 3.21 A Cutaneous nerve supply to the lower limb.
PHYSICAL EXAMINATION 69
\-l-t-- liohypogartrlc. LC􀅨'. =======􀀜4\ Subcostal, T.u-
:\'J-:>,��(7�:'-TDorral ,ami, L,l, 2, 3 ----',....-
"'\\---,\"00'101 ,ami, S.I, 1,
lAlu,al (Ula ..t oul. _􀃱 ,-____t- of thigh, L.il, 3 -
1);----+----+-'OI"II,Q/o" L.1, 3. 4
1'--,_+-..1l􀅩+ __ Medial cu/ont(lUJ
of thIgh, L.Il, 3
"-<
c-
f-_ POJltrio, ( .. tQII.t01U of rhigh,-tl--_ i- S.l, 1, J
LatlYa/ ( .. /01110111 of calf of lq'+-1I-
-
-t-
L . ." 5. S.l j
1-JJrl---H'l-l----SaphtnaUI, L.]. '*
Sural rommunit:lliing
branch 0/
commDn p"fm􀁩ill
ft-----Sw'al, L.S, S,l, 7--+-1-
,\ftdial ,akilrl#:ill '1-71---====:;'-<--- b,atlch􀇻. of
libial, S.l, 2
A
70 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
B
" ,
I I :,
,, :: /,
'-\./
I
L2 􀇹 / "
f
1:'.,,"110," jo,,,,, .. dl
J". 111"0, ..,,,, /1 It",
\,
// ,,
f "
f >­
I \ I L' 􀇺
I \,
, / ,
/ , ( .. i
I\ I \ , \ 14:
II ,,
w I :
I 1 I ,
I '
\ 1 "" II.' II''.
I '.
I '
, I :
f f '
/ 1.'/1.4
/ " ,
o U
I'"" ,al
il,rlO/
/""
1'",/",/
lu,al
I,,,,
,,'1-'
f
f
f
Figure 3.21 B Dermatomes of the lower limb. There is
minimal overlap across the heavy black tines; considerable
overlap occurs across the interrupted fines. (From Williams
el at 1995, with permission.)
a muscle group over a few seconds. The muscle is
placed in mid-position and the patient is asked to
hold the position against the resistance of the clinician.
The resistance is applied slowly and smoothly
to enable the patient to give the necessary
resistance, and the amount of force applied must
be appropriate to the specific muscle group and to
the patient. Myotome testing is shown in Figures
3.26 and 3.27. If a peripheral nerve lesion is suspected,
the clinician may test the strength of individual
muscles supplied by the nerve using the
MRC scale, as mentioned earlier. Further details of
peripheral nerve injuries are beyond the scope of
this text, but they can be found in standard
orthopaedic and neurological textbooks.
Reflex testing. The deep tendon reflexes are elicited
by tapping the tendon a number of times. The
commonly used deep tendon reflexes are the
biceps brachii, triceps, patellar and tendocalcaneus
(Fig. 3.28).
The reflex response may be graded as follows:
- or 0: absent
- or 1 : diminished
+ or 2: average
++ or 3: exaggerated
+++ or 4 : clonus.
Clonus is associated with exaggerated reflexes
and is characterized by intermittent muscular
contraction and relaxation produced by sustained
stretching of a muscle. It is most commonly
tested in the lower limb, where the clinician
sharply dorsi flexes the patient's foot with the
knee extended.
A diminished reflex response can occur if there
is a lesion of the sensory or motor pathways. An
exaggerated reflex response suggests an upper
motor lesion and, if this is found, the plantar
response should be tested. This involves stroking
the lateral aspect of the foot and obsen􀉹ng the
movement of the toes. The normal response is for
all the toes to plantarflex, while an abnormal
response, confirming an upper motor neurone
lesion, consists of dorsiflexion of the great toe and
downward fanning out of the remaining toes
(Walton 1989), which is known as the extensor or
Babinski respon e.
Reflex changes, however, do not necessarily
indicate nerve root involvement, since zygapophyseal
joints injected with hypertonic saline can abolish
ankle reflexes, which can then be restored by a
steroid injection (Mooney & Robertson 1976).
Reflex changes alone, without sensory or motor
changes, are therefore not a relevant clinical finding.
It should also be realized that all tendon reflexes
can be exaggerated by tension and anxiety.
Mobility of the nervous system
The mobility of the nervous system is examined
by carrying out what are known as neurodynamPHYSICAL
EXAMINATION 71
C b
"
S' -f'�.
POSTEF\IQR
Figure 3.22 Sclerolomes of the upper and lower limbs. (From Grieve 1991 , with permission.)
Table 3.9 Myolomes (Grieve 1 991 )
Root
C1
C2 and V cranial
C3 and V cranial
C4
C5
C6
C7
C8
T1
T2-11
L2
L3
L4
L5
S1
S2
S3-4
Joint action
Upper cervical flexion
Upper cervical extension
Cervical lateral flexion
Shoulder girdle elevation
Shoulder abduction
Elbow flexion
Elbow extension
Thumb extension; finger flexion
Finger abduction and adduction
No muscle test or reflex
Hip flexion
Knee extension
Foot dorsiflexion
Extension of the big toe
Eversion of the foot
Contract buttock
Knee flexion
Knee flexion
Toe standing
Muscles of pelvic floor, bladder and genital function
Reflex
Biceps jerk
Biceps jerk
Triceps jerk and brachioradialis
Knee jerk
Knee jerk
Ankle jerk
72 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Coracobrachialis
MUSCULOCUTANEOUS NERVE -'t+-I(
Biceps ----------.. ,
1-1------------ Brach.alls
r' . , \ r-..-
(
Figure 3.23 The musculocutaneous (A), axillary and radial (8) nerves 01 the upper
limb and the muscles that each supplies. (From Medical Research Council 1976, with
permission.)
A
PHYSICAL EXAMINATION 73
AXILLARY NERVE
Oeltoid -----------1 ... \
6-'''',--+---- Teres minor
Triceps. long head ------II---l
Triceps. Illeral head -------11-""1 '11----- Triceps. medial head
It-I--------- RADIAL NERVE
Brachloradiel.s --------1'11 f\ EICtensor carpI radialis longus ---1-11-->.- )
Extensor carpi radialis brevis ---1t"i1NC"-'l
SUPinator -----------1t'.I-\-,{-- POSTERIOR INTEROSSEOUS NERVE
Extensor ca,PI uln.us -----r I
Extensor digilorum --------1t'.1\ Extensor digiti minimi _
_
_
_
_ ..... ) Abductor pall ids longus ---- -1"1
Extensor pollid, longus -----I'
Extensor pollids brevis -------In
Extensor indicis -------It'
Figure 3.23 (cont'e!)
B
ic tests (Shack lock 1995), Some of these tests havc
been used by the medical profession for over 100
years (Dyck 1984 ), but they have been more fully
developed by several therapists (Elvey 1985,
Maitland 1986, Butler 199 1), A summary of the
tests is given here, but further dctails of the theo74
NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Pronalor 1eres --------I--;r::/-I'''­ Flel':or carpi radialiS -------1-
PalmafiS longus --------11-1
.------MEDIAN NERVE
Flexor diglforum superficlalls -----I--r.,"-􀅧_ ANTE RIOR INTEROSSEOUS NERVE
'ilo--- Flexor digilorum profundus I & II
'itt-------Flexor pollicis longus
t+-I--------Pronator quadratus
AbdUCIOt polliels brevis
Flexor pollicis brev;"s􀁈:::J::: fi';􀀛 Opponens pollicis -
1st lumbrical ---I':f---t�I/.!l+:1-'J+----------2nd lumbrical
Figure 3.24 Diagram of the median (A) and ulnar (8) nerves of the upper limb and
the muscles that each supplies. (From Medical Research Council 1976, with
permission.)
A
retical aspects of these tests and how the tests are
perfomled can be found in Butler (1991). In addition
to the length tests described below, the clinician
can also palpate the nerve with and without
the nerve under tension; details are given later in
the section on palpation.
Adductor POllicis
Flexor pollicis brevis
lsi Dorsal interosseous --.:���􀀣
1st Palmar Inlerosseous
Third lumbrtcal
Flgur. 3.24 (conrd)
The testing procedures follow the same format
as that of joint movement. Thus, resting symptoms
are established prior to any testing movement and
then the following information should be noted:
PHYSICAL EXAMINATION 75
1------- ULNAR NERVE
.----- Flexor carpi ulnans
Flexor digilorum profundus III & IV
,===== Abductor
l1 Opponens
iI.Y---_ Flexor
FOurth lumbr'Ci'l1
• The quality of movement
• The range of movement
B
• The resistance through the range and a t the
end of the range
76 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
iliacus ------------H,.-'jrtf.
FEMORAL NERVE
________ 􀁇iJ􀁆-1f􀃰------------ P$ oas
Quadriceps
femOriS
Reclus femons
VaSlu$ lalerahs
Vast us intermedius
Vaslus medialis
COMMON PERONEAL NERVE
\I¥----- OBTURATOR NERVE
Adductor brevIs
Adductor longus
'111----------- GraCIlis
Adductor magnus
SuPERFICIAL PERONEAL NERVE -I\-.,.",--i'/------ DEEP PERONEAL NERVE
Peroneus longus ------,.' �111�'----------Tibialis anterior
1H11------EIIlensor dlgllorum longus
Peroneus brevIs -------W
Extensor hallucls longus
Peroneus tertius ---------Irl
Extensor dl9110rum brevIs ------1 ':-.
Figure 3.25 Diagram of the nerves on the anterior (A) and posterior (8) aspects of
the lower limb and the muscles that they supply. (From Medical Research Council
1 976, with permission.)
A
PHYSICAL EXAMINATION n
SUPERIOR GLUTEAL NERVE 11..,'=',,------- Gluleus medius
IJ-:+------- Gluteus mlnimUS
PlfllormiS ------___ 􀅤􀅥􀅦 ">'�t----- Tensor rasclae lalae
I-�...L-+ INFERIOR GLUTEAL NERVE
1"-.-:;/------ Gluteus mall.lmU5
SCIATIC NERVE -----------1
Semllendlnosus ---------r If'llv-------- Biceps. long head
Semimembranosus --------11-7 ,7'11-------- Biceps. shon head
Adductor mag nus -------..
TIBIAL NERVE ---------,,L-j P-c--- COMMON PERONEAL NERVE
Gastrocnemius. medial head ---- In
Soleus -----------.. :.-1
Tlb'IIIS postenor ---------IInJl
Flexor dlgllorum longu$ -------111
.--- Gastrocnemius laleral head
.+------ Flell.or halluC1S longus
If-lH-------- TlBIAL NERVE
MEDIAL PLANTAR NERVE 10 ----I\I :::',t----- lATERAl PLANTAR NERVE 10
Abductor halluCIS
Flexor dlgl10rum brevIs
Frel(or haltucls brevis
Flgur. 3.25 (conl'd)
Abductor dig". mlnlml
FlelCor dIgiti minim.
Adductor hallucls
Inlerossel
B
• Pain behaviour (local and referred ) through
the range.
• All or part of the patient's symptoms have
been reproduced
A test is considered positive if one or more of
the following are found:
• Symptoms different from the 'normal'
response arc produced
78 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
A
C
E
G
B
D
F
H
Figure 3.26 Myotome testing for the cervical and upper
thoracic nerve roots. The patient is asked to hold the position
against the force applied by the clinician. A C 1 , upper
cervical flexion. B C2, upper cervical extension. C C3,
cervical lateral flexion. 0 C4. shoulder girdle elevation.
E CS, shoulder abduction. F e6, elbow flexion. G e7, elbow
extension. H ca, thumb extension. I T1, finger adduction.
• The range of movement in the symptomatic
limb is different from that of the other limb.
Sensitizing or desensitizing movements are
necessary to implicate the nervous system as a
source of the patient's symptoms. For example, a
straight leg raise (SLR) lengthens the hip extensors
(particularly the hamstrings) as well as the
sciatic nerve. The position of pain reproduction
is held constant and dorsiflexion of the ankle or
passive neck flexion is then added. This increases
tension within the nervous system since the cerebral
dura mater, the spinal dura mater and the
epineurium of the peripheral nerves form a continuous
structure (Butler 1991). If symptoms are
increased (or decreased), this implicates the nervous
system, since the length of the hamstrings
has remained the same.
Neurodynamic tests include the following:
• Passive neck flexion (PNF)
• Straight leg raise
• Prone knee bend (PKB)
• Slump
• Upper limb tension tests (UL TT), also known
as brachial plexus tension tests (BPTT).
Passive neck flexion. In the supine position,
the head is nexed passively by the clinician
(Fig. 3.29). The normal response would be painfree
full-range movement. Sensitizing tests
PHYSICAL EXAMINATION 79
include the SLR or one of the upper limb tension
tests. Where symptoms are related to cervical
extension, investigation of passive neck extension
is needed. PaSSively flexing the neck produces
movement and tension of the spinal cord
and meninges of the lumbar spine and of the sciatic
nerve (Breig 1978, Tencer et aI 1985).
Straight leg raise. The patient lies supine. The
clinician rotates the hip slightly medially and
then flexes the hip, keeping the knee extended
(Fig. 3.30). The normal response would be pain, a
strong stretching feeling or tingling in the posterior
thigh, posterior knee and posterior calf and
foot (Miller 1987, Slater 1989). As with all neurodynamic
tests, it is vital to differentiate between
these 'normal' responses and the patient's actual
symptoms. Sensitizing tests to differentiate nervous
tissue from other tissues, particularly hamstrings,
include ankle dorsiflexion and forefoot
eversion (sensitizes the tibial nerve), ankle plantarflexion
and forefoot inversion (sensitizes the
common peroneal nerve), hip adduction (sensitizes
the sciatic nerve), increasing hip medial
rotation (sensitizes the sciatic nerve), neck
flexion (sensitizes spinal cord and meninges, and
the sciatic nerve) and trunk lateral nexion (sensitizes
the spinal cord and sympathetic trunk on
the contralateral side).
The SLR moves and tensions the nervous system
(including the sympathetic trunk) from the
foot to the brain (Breig 1978), as well as affecting
other structures, such as the hamstrings, lumbar
spine, hip and sacroiliac jOints.
Prone knee bend. Traditionally, this test has
been carried out in the prone position, as the
name suggests, with the test being considered
positive if, on passive knee flexion, symptoms
are reproduced. This does not, however, differentiate
between nervous tissue (femoral nerve)
and the hip flexor muscles, which are also being
stretched. Carrying out the test in side lying with
the head and trunk flexed allows cervical extension
to be used as a desensitizing test (Fig. 3.31).
The test movements are as follows:
• The clinician determines any resting
symptoms and asks the patient to say
immediately if any of his/her symptoms are
provoked during any of the movements
80 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
A
c
E
F
D
G
Figure 3.27 Myotome testing for the lumbar and sacral
nerve roots. A l2, hip flexion. 8 L3, knee extension. C L4,
fool dorsiflexion. 0 LS, extension of the big loe. E 8 1 , foot
eversion. F 8 1 , contract buttock. G 81 and 82, knee flexion.
H 52. loe standing.
B
H
Figure 3.27 (cont'd)
A
PHYSICAL EXAMINATION 81
• The patient is placed in side lying with a pillow
under the head (to avoid lateral flexion!
rotation of the cervical spine). The patient is
asked to hug both knees up on to the chest.
• The patient releases the uppermost knee to the
clinician, who fully flexes the knee and then
passively extends the hip (pure extension, no
adduction or rotation of the hip should occur),
making sure the pelvis and trunk remain still.
• At the point at which symptoms occur the
patient is then asked to extend the head and
neck while the clinician maintains the trunk and
leg position. A typical positive test would be for
the cervical extension to ease the patien􀄕s
anterior thigh pain and for the clinician to then
be able to extend the hip further into range.
A normal response would be full-range movement
so that the heel approximates the buttock,
accompanied by a feel of strong stretch over the
anterior thigh.
B
C D
Figur. 3.28 Rellex lesling. A Biceps jerk (C5 and C6). B Triceps jerk (C7). C Knee jerk (L3 and L4). D Ankle jerk (51).
82 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 3.29 Passive neck flexion.
Figure 3.30 Straight leg raise (SLR) with dorsiflexion.
PHYSICAL EXAMINATION 83
Figure 3.31 Slump/prone knee bend.
Saphenous nerve length test. The patient lies
prone and the hip is placed in extension and
abduction with the knee flexed. The clinician
then passively adds lateral rotation of the hip,
foot dorsiflexion and eversion and then knee
extension.
Slump. This test is fully described by Maitland
(1986) and Butler (1991) and is shown in Figure
3.32. An alternative method is to provide no
overpressure to the patient's trunk - the clinician
simply guides each movement. The slump test is
carried out as follows:
• The clinician establishes the patient's resting
symptoms and asks the patient to say
immediately if any of his/her symptoms are
provoked
• The patient sits with thighs fully supported at
the edge of the plinth with hands behind
his/ her back
• The patient is asked to slump the shoulders
towards the groin
• The clinician monitors or applies overpressure
to the trunk flexion
• Active cervical flexion
• Clinician monitors or applies overpressure to
the cervical flexion
• Active foot dorsiflexion on asymptomatic
side
• Active knee extension on asymptomatic side
• Active foot dorsiflexion on symptomatic side
• Active knee extension on symptornatic side
• Active bilateral foot dorsiflexion
• Active bilateral knee extension.
Now that the all combinations of lower limb
movements have been explored the clinician
chooses the most appropriate movement to
which to add a sensitizing movement. This
would commonly be as follows:
• Active foot dorsiflexion on symptomatic side
• Active knee extension on symptomatic side
• The patient is asked to extend the head to look
upwards and to report on any change in the
symptoms. It is vital that there is 110 change in
position of the trunk and lower limbs when
the cervical spine is extended. A reduction in
symptoms on cervical extension would be a
typical positive test indicating abnormal
neurodynamics.
84 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
2
3
Figure 3.32 Slump lest.
The normal response might be:
• Pain or discomfort in the mid-thoracic area on
trunk and neck flexion
• Pain or discomfort behind the knees or in the
hamstrings in the trunk and neck flexion and
knee extension position; symptoms are
increased with ankle dorsiflexion
• Some restriction of knee extension in the trunk
and neck flexion position
• Some restriction of ankle dorsiflexion in the
trunk and neck flexion and knee extension
position; this restriction should be symmetrical
• A decrease in pain in one or more areas with
the release of the neck flexion
• An increase in the range of knee extension
and / or ankle dorsiflexion with the release of
the neck flexion.
The desensitizing test is cervical extension.
Sensitizing tests can include cervical rotation,
cervical lateral flexion, hip flexion, hip adduction,
hip medial rotation, thoracic lateral flexion,
altering foot and ankle movements as for the SLR
test, or one of the upper limb tension tests.
Differentiation of groin strain due to muscle or
nerve dysfunction can be carried out by positioning
the patient in sitting and abducting the hip to
the onset of symptoms. Slump and neck flexion
are then added and if symptoms are increased
this may suggest obturator nerve involvement; if
there is no change in symptoms this may suggest
a local groin strain. Greater emphasis on the
sympathetic chain can be tested by adding cervical
extension and thoradc lateral flexion.
Upper limb tension (brachial plexus tension)
tests. There are four tests, each of which is biased
towards a particular nerve:
• UL IT 1 - median nerve
• UL IT 2a - median nerve
• ULIT 2b - radial nerve
• UL IT 3 - ulnar nerve.
The test movements are outlined below. The
order of the test movements is relatively unimportant;
what matters is consistency in sequencing
at each time of testing.
UL IT 1: median nerve bias (Fig. 3.33). This consists
of:
PHYSICAL EXAMINATION 85
1 . Shoulder girdle depression
2. Shoulder joint abduction
3. Forearm supination
4. Wrist and finger extension
5. Shoulder joint laterally rotated
6. Elbow extension.
The sensitizing test is cervical lateral flexion
away from the symptomatic side, and the desensitizing
test is lateral flexion towards the sympathetic
side.
UL IT 2a: median nerve bias (Fig. 3.34). This test
involves:
1. Start position
2. Shoulder girdle depression with
approximately 10° shoulder joint abduction
3. Elbow extension
4. Lateral rotation of whole ann
5. Wrist, finger and thumb extension
6. Abduction of shoulder.
The sensitizing test is cervical lateral flexion
away from the symptomatic side or shoulder
abduction. The desensitizing test is lateral flexion
towards the symptomatic side or release of the
shoulder girdle depression.
UL IT 2b: radial nerve bias (Fig. 3.35). This comprises:
1 . Shoulder girdle depreSSion with about 10°
shoulder joint abduction
2. Elbow extension
3. Medial rotation of whole arm
4. Wrist finger and thumb flexion
The sensitizing test is cervical lateral flexion
away from the symptomatic side or shoulder
abduction. Shoulder girdle protraction will sensitize
the suprascapular nerve. The desensitizing
test is lateral flexion towards the symptomatic
side or release of the shoulder girdle depression.
UL IT 3: ulnar nerve bias (Fig. 3.36). This comprises:
1. Wrist and finger extension
2. Forearm pronation
3. Elbow flexion
4 . Shoulder girdle depression
5. Shoulder lateral rotation
6. Shoulder abduction.
86 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
3
5
Figure 3.33 Upper limb tension test (UL Tl) 1 .
2
4
6
Figure 3.34 Upper limb tension test (UL TT) 2a (median nerve bias).
PHYSICAL EXAMINATION 87
88 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 3.35 Upper limb tension test (Ul TT) 2b (radial nerve bias).
The sensitizing test is cervical lateral flexion
away from the symptomatic side and lateral
flexion towards the symptomatic side to desensitize.
Normal responses to the upper limb tension
tests have only been investigated for the UL IT 1
(Kenneally et al 1 988). The normal response for
this test includes the following:
• Deep ache or stretch in the cubital fossa
extending to the anterior and radial aspects of
the forearm and hand
• Definite tingling in the thumb and first three
fingers
• Contralateral cervical lateral flexion increases
the symptoms
• Ipsilateral cervical lateral flexion reduces the
symptoms
• A stretch feeling over the anterior aspect of the
shoulder.
Additional tests for the upper limb tension test
include placing the other arm in a UL IT position
and adding in either the SLR or the slump test.
The tests can also be carried out with the subject
in other starting positions; for instance, the UL IT
can be performed with the patient prone, which
allows accessory movements to be carried out at
the same time. Other upper limb movements can
be carried out in addition to those suggested; for
instance, pronation/supination or radial/ulnar
deviation can be added to UL IT 1 .
A list o f precautions and contraindications
to nervous system mobilization is given in Table
3.10 (Butler 1991).
Other neurological diagnostic tests
These tests include various tests for spinal cord
and peripheral nerve damage and are discussed
in the relevant chapters.
PHYSICAL EXAMINATION 89
5
Figure 3.36 Upper limb tension test (ULTT) 3 (ulnar nerve bias).
90 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Table 3.10 Precautions and contraindications to nervous tissue mobilization (Butler 1991)
Precautions Contraindicalions
Other structures involved in lesting. e.g. lumbar discs during
slump test, symptomatic zygapophyseal jOints during UL IT
Irritability related to the nervous system. The inherent
mechanosensitivity of the nervous system needs consideration
Clinically, it appears easier to aggravate arm symptoms than
leg symptoms. Irritable disorders may demonstrate latency
If a condition is getting worse and the rate of deterioration
is fast, care needs to be laken
In chronic, stable disorders where nervous tissue mobilization
is possible, the neurological signs must be continually
monitored
General health problems; pathologies thai affect the nelVous
tissue, e.g. diabetes. multiple sclerosis, Guillain--Barre; recent
surgery and medical considerations
Dizziness
Circulatory disturbances, since the tests will also affect
the circulation
Minor cord injury causing transient quadriplegia
Special tests
These include vascular tests, respiratory tests,
measurement of oedema and bony deformities,
and tests of soft tissues (such as meniscal tears in
the knee). These tests are all discussed in detail in
the relevant chapters.
Functional ability
Some functional ability is tested earlier in the
observation section of the examination, but further
testing can be carried out at this point, such
as gait analysis, stair climbing, lifting, etc. There
are a number of functional rating scales available
for the different joints, which will be briefly
explored in relevant chapters. Assessment of
general function using standardized tests is recommended,
as it facilitates objectivity and evaluation
of the treatment (Harding et aI 1 994).
Pal pation
It is useful to record palpation findings on a body
chart (see Fig. 2.4) and/or palpation chart for the
vertebral column (Fig. 3.37).
During the palpation of soft tissues and skeletal
tissues, the clinician should note the following:
Recent onset, or worsening, of neurological signs
requiring daily reassessment
Cauda equina lesions with altered bladderlbowel function
and altered sensation in the perineum
Tethered cord syndrome
• The temperature of the area (increase is
indicative of local inflammation)
• Localized increased skin moisture (indicative
of autonomic disturbance)
• The presence of oedema and effusion
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules
• The presence or elicitation of muscle spasm
• Tenderness of bone, ligament, muscle, tendon,
tendon sheath, trigger point and nerve
(including nerve tension points; Butler 1991)
• Increased or decreased prominence of bones
• Pain provoked or reduced on palpation.
Hints on the method of palpation are given in
Box 3.1.
Trigger points
A trigger point is 'a focus of hyperirritability in a
tissue that, when compressed, is locally tender
and, if sufficiently hypersensitive, gives rise to
referred pain and tenderness, and sometimes to
referred autonomic phenomena and distortion of
proprioception. Types include myofascial, cutaneous,
fascial, ligamentous, and periosteal trigger
points' (Travell & Simons 1983).
Trigger points can be divided into latent and
o Tend6f X Stili Segment Q Prominent
• .... III ThICkened (deep)
􀇻 Elicited Spa.m
WI "_"",m """",,
􀁅 - 1 -
- 1-
- 3-
- .-
- 5-
_ 6_
- 7-
􀃭 '􀀸
􀃳 '􀀹
􀃮 J􀃯
􀃰'􀀸
􀃱5􀃲
􀃴6􀀹
􀃧 7􀃨
􀃩 8􀃪
􀃫9􀃬
􀅢I􀅣
.-r" 􀃵
.-r'1􀃶 - 1 -
- 2 -
- 3 -
- , -
Figure 3.37 Palpation chart. (From Grieve 1 99 1 , with
permission.)
Box 3.1 Hints on palpation
• Palpate the unaffected side first and compare this
with the affected side
• Palpate from superficial 10 deep
• Use just enough force to feel - the harder one
presses, the less one feels
• Never assume thai a relevant area does not need
palpating
active: a latent trigger point is where the tenderness
is found on examination yet the person has
no symptoms, while an active trigger point is one
where symptoms are produced locally and/or in
PHYSICAL EXAMINATION 91
an area of referral. Active trigger points lead to
shortening and weakening of the muscle and are
thought to be caused by trauma to the muscle
(Baldry 1993). Commonly found myofascia] trigger
points and their characteristic area of referral
can be seen in Figure 3.38. In order to examine for a
trigger point, the muscle is put on a slight stretch
and the clinician searches for trigger points by nml
pressure with the fingers over the muscle.
Palpable nerves in the upper limb are as follows:
• The brachial plexus can be palpated in the
posterior triangle of the neck; it emerges at the
lower third of sternocleidomastoid
• The suprascapular nerve can be palpated
along the superior border of the scapula in the
suprascapular notch
• The dorsal scapular nerve can be palpated
medial to the medial border of the scapula
• The median nerve can be palpated over the
anterior elbow joint crease, medial to the
biceps tendon, also at the wrist between
palmaris longus and flexor carpi radialis
• The radial nerve can be palpated around the
spiral groove of the humerus, between
brachioradialis and flexor carpi radialis, in the
forearm and also at the wrist in the snuff box.
Palpable nerves in the lower limb are as follows:
• The sciatic nerve can be palpated two-thirds of
the way along an imaginary line between the
greater trochanter and the ischial tuberosity
with the patient in the prone position
• The common peroneal nerve can be palpated
med ial to the tendon of biceps femoris and
also around the head of the fibula
• The tibial nerve can be palpated centrally over
the posterior knee crease medial to the
popliteal artery; it can also be felt behind the
medial malleolus, which is more noticeable
with the foot in dorsiflexion and eversion
• The superficial peroneal nerve can be palpated
on the dorsum of the foot along an imaginary
line over the fourth metatarsal; it is more
noticeable with the foot in plantar flexion and
inversion
• The deep peroneal nerve can be palpated
between the first and second metatarsals,
lateral to the extensor hallucis tendon
92 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Sternocleidomastoid
Temporalis
• 􀀚.
Upper trapezius
Levator scapulae
Figure 3.38 Myofascial trigger pOints.
Splenius capitis
Masseter
Upper trapezius
Multifidus
Pain pattern _'-_-- _ -' Trigger area X
Infraspinatus
Subscapularis
First dorsal interosseous
Figure 3.38 (cont'd)
PHYSICAL EXAMINATION 93
Middle
finger
e)(tensor
f
,
Supraspinatus
Extensor
carpi
radialis longus
Adductor pollicis
Supinators
('
Pain pattern •'- ---' Trigger area x
94 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Pectoralis minor
Seratus anterior l
Iliocostalis thoracis (caudal portion)
. .
y +
longissimus thoracis
Pectoralis major
􀀡 .
left sternalis
Y .
GmluetdeiuUr(s ' 􀀢luliOmCbOosrtaulmiS
L x
Pain pattern '------' Trigger area )(
Figure 3.38 (conrd)
Gluteus minimus
) 􀀅
I x r
(
x

Vastus medialis
Soleus
PHYSICAL EXAMINATION 95
Piriformis Add uctor longus and brevis
o
Biceps femoris
Abductor hallucis
Gastrocnemius
(lateral head)
Tibialis
anterior
Extensor digitorum
longus
Extensor hallucis
brevis
Peroneus
longus and brevis
\.
Pain pattern .L _
_
_ -.J Trigger area X
Figur. 3.38 (conl'd)
96 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• The sural nerve can be palpated on the lateral
aspect of the foot behind the lateral malleolus,
lateral to the tendocaleaneus.
A ccessory movements
Accessory movements are defined as those movements
which a person cannot perform actively
but which can be performed on that person by an
external force (Maitland 1986). They take the form
of gliding (sometimes referred to as translation or
sliding) of the jOint surfaces (medially, lateraUy,
anteriorly or posteriorly), distraction and compression
of the joint surfaces and, in some joints,
rotation movements where this movement cannot
be performed actively - e.g. rotation at the
metacarpal and interphalangeal joints of the
fingers. These movements are possible because
all jOints have a certain amount of play in them
resulting from slackness in the capsule and surrounding
ligaments (Kaltenborn 1989).
Accessory movements are important to examine
because they occur during aU physiological
movements and, very often, if there is a limitation
of the accessory range of movement this will
affect the range of physiological movement
available. For example, during knee flexion in a
non-weight-bearing position, the tibia rolls backwards
and slides backwards on the femoral
condyles; and during shoulder elevation through
abduction, the head of the humerus rolls
A
upwards and translates inferiorly on the glenoid
cavity. The direction in which the bone glides
during physiological movements depends
upon the shape of the moving articular surface
(Fig. 3.39). When the joint surface of the moving
bone is concave, the glide occurs in the
same direction as the bone is moving, so that
with flexion of the knee joint (in non-weightbearing),
posterior glide of the tibia occurs on the
femur; when the joint surface is convex, the glide
is in the opposite direction to the bone movement,
so that with shoulder abduction there is an
inferior glide of the head of the humerus on the
glenoid cavity.
Examination of the accessory movement is
important as it can (adapted from lull 1994):
• Identify and localize the symptomatic joint
• Define the nature of the joint motion
abnormality
• Identify associated areas of joint motion
abnormality
• Provide a basis for the selection of treahllent
techniques.
Pressure is applied to a bone dose to the joint
line and the clinjcian increases movement progresSively
through the range and notes the following:
• The quality of the movement
• The range of the movement
• Pain behaviour (local and referred) through
the range, which may be provoked or reduced
B
Figure 3.39 Movement of articular surfaces during physiological movements. The single arrow depicts the direction of
movement of the articular surface and the double arrow depicts the physiological movement. A With knee extension (nonweight-
bearing), the concave articular surface of the tibia slides superiorly on the convex femoral condyles. B With shoulder
elevation through abduction, the convex articular surface of the humerus slides inferiorly on the concave glenoid cavity. (From
Kallenborn 1 989, with permission.)
• Resistance through range and a t the end of the
range
• Muscle spasm elicitation.
Hints on performing an accessory movement
are given in Box 3.2. Findings can include the following:
• Undue skeletal prominence
• Und ue tenderness
• Thickening of soft tissues
• Decreased mobility of soft tissues
• A point in the range of the accessory
movement where symptoms are increased or
reduced
• An indication as to the irritability of a problem
(see Ch. 2)
• Evidence of joint hypermobility
• Evidence of joint hypomobility
• Elicitation of muscle spasm
• Joints that are not affected by the present
problem
• The location(s) of the problem(s)
• The relationship of the problems to each other
• The possible nature of structures involved
• What is limiting the movement and the
relationshjp of pain, resistance or muscle
spasm within the available range of
Box 3.2 Hints on perfonning an accessory movement
• Have the palient comfortably positioned
• Examine the joint movement on the unaffected side
first and compare this with the affected side
• Initially examine the accessory movement without
obtaining feedback from the patient about symptom
reproduction. This helps to facilitate the process of
learning to feel jOint movement
• Have as large an area of skin contact as possible for
maximum patient comfort
• The force is applied using the body weight of the
clinician and not the intrinsic muscles of the hand,
which can be uncomfortable for both the patient and
the clinician
• Where possible, the clinIcian's forearm should Jie in
the direction of the applied force
• Apply the force smoothly and slowly through the
range with or without oscillations
• At the end of the available movement, apply small
oscillations to feel the resistance at the end of the
range
• Use just enough force to feel the movement - the
harder one presses, the less one feels
PHYSICAL EXAMINATION 97
movement. A movement diagram (or joint
picture) depicts this information.
Movement diagrams
The movement diagram is useful for a student
who is learning how to examine joint movement
and is also a quick and easy way of recording
information on joint movements, It was initially
described by Maitland ( 1977) and then later
refined by Margarey (1985) and Maitland (1 986).
A movement diagram is a graph that describes
the behaviour of pain, resistance and muscle
spasm, showing the intensity and position in
range at which each is felt during a passive accessory
or passive physiological movement of a
joint (Fig. 3.40).
The baseline AB is the range of movement of
any joint. Point A is the beginning of range and
point B is the end of the passive movement. The
exact pOSition of B will vary with the strength
and boldness of the clinician. It is thus depicted
on the diagram as a thick line.
The vertical axis AC depicts the intensity of
pain, resistance or muscle spasm. Point A is the
absence of any pain, resistance or spasm and
point C is the maximum intensity that the clinician
is prepared to provoke.
Procedure for drawing a movement diagram.
To draw resistance (Fig. 3.41). The clinician
moves the joint and the first point at which resis-
IntenSity
of pain,
resistance
or muscle
spasm
c
A
Range of movement
Figure 3.40 A movement diagram. The baseline AB is the
range of movement of any joint and the vertical axis AC
depicts the intensity of pain, resistance or muscle spasm.
D
B
A
98 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
tance is felt is called RI and is marked on the
baseline AB. A normal joint, when moved passively,
has the feel of being well-oiled and friction-
free until near the end of range, when some
resistance is felt that increases to limit the range
of movement. As mentioned previously, the
resistance to further movement is due to bony
apposition, increased tension in the surrounding
ligaments and muscles or soft tissue apposition.
The joint is then taken to the limit of range and
the point of limitation is marked by L on the
baseline AB. If resistance limits the range, the
point of limitation is marked by R2 vertically
above L on the CD line to indicate that it is resistance
that limits the range. R2 is the point beyond
which the clinician is not prepared to push. The
behaviour of the resistance between RI and R2 is
then drawn.
If, on the other hand, pain limits the range of
movement, an estimate of the intensity of resistance
is made at the end of the available range
and is plotted vertically above L as R'. The
behaviour of the resistance between RI and R' is
then described by drawing a line between the
two points.
The resistance curve of the movement diagram
is essentially a part of the load-displacement
curve of soft tissue (ranjabi 1 992, Lee & Evans
1994) and is shown in Figure 3.42. In a normal
joint, the initial range of movement has minimal
C D
IntenSIty of pain,
resistance
or muscle
spasm
/
R '
A R I L B
Range of movement
resistance and this part is known as the toe
region (Lee & Evans 1994) or neutral zone
(ranjabi 1992). As the joint is moved further into
range, resistance increases; this is known as the
linear region (Lee & Evans 1 994) or elastic zone
(ranjabi 1992). RI is the point at which the therapist
perceives an increase in the resistance and it
will lie somewhere between the toe region/neu-
"0 .----------r- ! ----􀅡
::'l I
...J I
I
Dr-_______􀃮 /----------􀃯c I
I Hypomobile jOlnl-! I
I
I
I
I
I
/ --_-'" Toe
R, )
- B
('-. .. ReSistance remains Imperceptible Displacement
tn this region
Figure 3.42 Relationship of movement diagram (ABeD) to
a load-displacemenl curve. (From Lee & Evans 1994, with
permission.)
C R2
IntenSIty of pam,
resistance
or muscle
spasm
A R I L
Range of movement
0
B
Figure 3.41 Resistance depicted on a movement diagram. A The diagram describes a joint movement that is limited
(L) to t range. Resistance is first felt at around t of full range (Rl) and increases a little at the end of the available range (R').
B The diagram describes a joint movement that is limited (L) to t range. Resistance is first felt at around tof full range (R,) and
gradually increases to the limit range of movement (R2).
B
tral zone and the linear region/elastic zone. The
ease with which a therapist can feel this change
in resistance might be expected to depend on the
range of joint movement and the type of movement
being examined. It seems reasonable to
suggest that it would be easier to feel RI when
the range of movement is large and where there
is a relatively long toe region, as in physiological
movements.
By contrast, accessory movements may only
have a few mill.imetres of movement and virtually
no toe region; in this case R\ may be perceived
virtually at the beginning of the range. A further
complication in finding RI occurs with spinal
accessory movements, because the movement is
not localized to any one joint but produces a general
movement of the spine (Lee & Svensson
1990). For this reason, it may be more appropriate
to assume with accessory movements that
resistance occurs right at the beginning of the
range of movement.
To draw pain (Fig. 3.43). In this case, the clinician
must establish whether the patient has any resting
pain before moving the joint.
The joint is then moved passively through
range, asking the patient to report any discomfort
immediately. Several small oscillatory movements
are carried out, gradually moving further
into range up to the point where the pain is first
c D
IntenSity
of pain,
resistance
or muscle
spasm
A
A
---
L
Range of movement
P
'
B
PHYSICAL EXAMINATION 99
felt, so that the exact position in the range at
which the pain occurs can be recorded on the
diagram. The point at which pain first occurs is
called PI and is marked on the baseline AB.
The joint is then moved passively beyond PI to
determine the behaviour of the pain through the
available range of movement. If pain limits
range, the point of limitation is marked as L on
the baseline AB. Vertically above L, P2 is marked
on the CD line to indicate that it is pain that limits
the range. The behaviour of the pain between
PI and P2 is now drawn.
If, however, it is resistance that limits the range
of movement, an estimate of the intensity of pain
is made at the end of range and is plotted vertically
above L as P'. The behaviour of the pain
between PI and P' is then described by drawing a
line between the two points.
To draw muscle spasm (Fig. 3.44). The joint is
taken through range and the point a t which resistance
due to muscle spasm is first felt is marked
on the baseline AB as 51.
The joint is then taken to the limit of range. If
muscle spasm limits range, the point of limitation
is marked as L on the baseline AB. Vertically
above L, 􀅵 is marked on the CD line to indicate
that it is muscle spasm that limits the range. The
behaviour of spasm is then plotted between 51
and 􀅵. When spasm limits range, it always
IntenSIty
of pain,
resistance
or muscle
spasm
c
A
P, L
Range of movement
D
B
Figure 3.43 Pain depicted on a movement diagram. A The diagram describes a joint movement that is limited to t range (L).
Pain is firstlelt at around t of full range (PI) and increases a liule at the end of available range (P'). B The diagram describes a
joint movement that is limited to t range (L). Pain is first felt at around t of lull range (PI) and gradually increases to limit range
of movement (P2).
B
A
C
100 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Intensity
of pain,
resistance
or muscle
spasm
c
A
D
/
5, L
Range of movement
B
Figure 3.44 Muscle spasm depicted on a movement
diagram. The diagram describes a joint movemenl lhat is
limited to i range (L). Muscle spasm is first felt just before i of
full range (8,) and quickly increases to limit the range of
movement (82),
c D
Intensity
of pam.
resistance
or muscle
spasm
R '
p, R , L
A B
Range of movement
C R2 0
p'
IntenSity
of pam.
resistance
or muscle
spasm
A
R , p, L
B
Range of movement
reaches its maximum quickly and is more or less
a straight line almost vertically upwards. The
resistance from muscle spasm varies depending
on the speed at which the joint is moved - as the
speed increases, so the resistance increases.
Examples of movement diagrams are given in
Figure 3.45.
Joint pictures. Grieve (198 1 ) uses 'joint pictures'
to describe essentially the same information
as movement diagrams, i.e. the behaviour of
pain, resistance and muscle spasm throughout
the available range of movement (Fig. 3.46). A
horizontal line depicts normal range, with the
start of movement to the left. Pain is shown
above the line, muscle spasm below, and resistance
is shown as a number of vertical lines
across the horizontal line. Limitation to movec
D
Intensity
of pain,
resistance
or muscle
spasm
p'
R , p, L
A B
Range of movement
Figure 3.45 Examples of completed movement diagrams.
A Shoutder joint flexion. tnterpretation: Shoulder joint flexion
is limited to just over half range (L). Pain first comes on at
about t of full range (P I ) and increases to limit the range of
movement (P2). Aesistance is first felt just before the end of
the available range (AI) and increases a little (A'). The
movement is therefore predominantly limited by pain.
e Central posteroanterior {PAl pressure on L3.
Interpretation: The PA movement is limited to t range (L).
Aesistance is first felt at about t of full range (AI) and
increases to limit the range of movement (A2). Pain is first felt
just before the limit of the available range (PI) and increases
slightly (PI). The movement is therefore predominantly
limited by resistance. C Left cervical rotation. Interpretation:
Left cervical rotation is limited to t range (L). Resistance is
first felt at t of full range (AI) and increases to limit range 01
movement (Av. Pain is felt very soon after resistance (PI)
and increases (PI) to an intensity of about 8/1 0 (where 0
represents no pain and 10 represents the maximum pain
ever felt by the patient). Cervical rotation is therefore limited
by resistance but pain is a significant factor.
B
PHYSICAL EXAMINATION 101
(i) the horizontal line represents normal range and movement is from
leC! to right
Neutral
rest
poSItion
)
Normal
hm.t
of range
I (i)
(ii) pain is depicted above it
, (ii)
(iii) spasm is depicted below il ) (iii)
(iv) movement-limitation is represented by a vertical line from the
dominant factor responsible (iv)
(v) resistance (mher than spasm) is represented by a number of vertical
lines which always cross the range line ) (v)
Figure 3.46 Joint pictures. (From Grieve 1 99 1 , with permission.)
ment is depicted by a vertical line from the dominant
factor responsible for restricting the range
of movement. A few examples of movement diagrams
and joint pictures are shown for comparison
in Figure 3.47.
Modifications to accessory movement
examination
Accessory movements can be modified by altering
the following:
• The speed of applied force; pressure can be
applied slowly or quickly and it may or may
not be oscillated through the range
• The direction of the applied force
• The point of application of the applied force
• The resting position of the joint.
The joint can be placed in any number of resting
positions; for example, accessory movements on
the patella can be applied with the knee anywhere
between full flexion and full extension, and accessory
movements to any part of the spine can be
performed with the spine in flexion, extension,
lateral flexion or rotation, or indeed any combination
of these positions. The effect of this positioning
alters the effect of the accessory movement.
For example, central posteroanterior pressure on
C5 causes the superior articular facets of C5 to
slide upwards on the inferior articular facets of
C4, a movement similar to cervical extension; this
upward movement can be enhanced with the cervical
spine positioned in extension. Specific techniques
have been described by Maitland (1 986,
1991) and Edwards (1999) and the reader is
referred to these authors for further information.
Accessory movements are carried out on each
joint suspected to be a source of the symptoms.
After each joint is examined in this way, all relevant
asterisks are reassessed to determine the
effect of the accessory movements on the signs
and symptoms. This helps to determine the
structures at fault. For example, in a patient with
cervical spine, shoulder and elbow pain, it may
be found that, following accessory movements to
the cervical spine, there is an increase in range
and reduction in pain in both the cervical spine
and the shoulder joint but that there is no change
in the pain or range of the elbow joint. Accessory
movements to the elbow joint, however, rnay
improve the signs and symptoms of the elbow
joint. Such a scenario suggests that the cervical
spine is giving rise to the pain in the cervical
spine and the shoulder, and the elbow joint is
responSible for producing the pain at the elbow.
This process had been termed the 'analytical
assessment' by Maitland (1 986) and is shown in
Figure 3.48.
Accessory movements have been described by
various authors (Cyriax 1982, Maitland 1 986, 1991,
Kaltenbom 1989, 1993, Grieve 1991, Mulligan 1995).
This text will deal mainly with those described by
Maitland, Kaltenbom and Mulligan and they will
be covered in the relevant chapters.
1 02 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
)
A
p'
B
Figure 3.47 Comparison of movement diagrams and joint pictures. A Pain limits movement early In the
range. B Spasm and pain limit movement ear1y in range. C Resistance limits movement halfway through
range. 0 limitation of movement to t range because of resistance, with some pain provoked from halfway
through range.
Nalural apophyseal glides (NAGs), suslained nalural
apophyseal glides (SNAGs) and mobilizalion
wilh movement (MWM). These are a developmenl
from Kallenborn's work and have been devised
and fully described by Mulligan (1995). As mentioned
earlier, during normal physiological movements
there is a combination of rolling and gliding
of bony surfaces al the joint. Examination (and
treatment) aims to restore the glide component of
the movement and thus enable full pain-free
movement at the joint. The rotation component is
not used, as it is thought that it may lead to compression
of the joint surfaces, which may cause
injury (Kaltenborn 1989). During examination
(and later treatment), the clinician moves the bone
parallel (translation) or at right angles (distraction/
separation) to the treatment plane. The treatment
plane passes through the joint and lies 'in'
the concave articular surface (Fig. 3.49). During
examination with these accessory movements, it is
the relief of symptoms that implicates the joint as
the source of symptoms, since the technique aims
to facilitate movement (d. accessory movement
used by Maitland (1986, 1991». The examination
tests can be used as a treatment technique but
details of these are outside the scope of this book.
Natural apophyseal glides (NAGs). These are midrange
rhythmic or sustained mobilizations
applied centrally or unilaterally in the cervical
and upper thoracic spine (between C2 and T3).
They are carried out in a weight-bearing position
and the direction of the force is along the facet
treatment plane (anterosuperiorly). They should
eliminate the pain provoked during the movement.
Further description of this examination
procedure can be found in relevant chapters.
P'
Flgur. 3.47 (conl'd)
Sustained natural apophyseal glides (SNAGs).
These are end-range sustained mobilizations,
which are combined with active movements and
can be used for all areas of the spine. They
are, like NAGs, carried out in a weight-bearing
position with the direction of the force along the
facet treatment plane. They should eliminate
the pain provoked during the movement.
Further description can be found in relevant
chapters.
Mobilizations with movement (MWM). These are
sustained mobilizations carried out with active
or passive movements or resisted muscle contraction
and are used for the peripheral joints.
They are generally applied close to the joint at
right angles to the plane of the movement taking
place. They should eliminate the pain provoked
during the movement. It is proposed that the
PHYSICAL EXAMINATION 103
c
D
mobilization affects and corrects a bony positional
fault, which produces abnormal tracking of the
articular surfaces during movement (Mulligan
1 993, 1 995, Exelby 1996). Further description can
be found in relevant chapters.
COMPLETION OF THE PHYSICA L
EXAMINATION
Once all the above steps have been carried out,
the physical examination is complete. It is vital at
this stage to highlight with an asterisk (0) important
findings from the examination. These
findings must be reassessed at, and within subsequent
treatment sessions to evaluate the effects
of treatment on the patient's condition. An outline
examination chart that summarizes the
physical examination is shown in Figure 3.50.
104 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Subjective and
physical examinatlon
Subjective and
physical re-examination
Theoretical knowledge
Assessment
HypothesIs
Treatment
Theoretical knowledge
~
Ae-assessment
(subJectively/physically
same, better or worse)
Modify treatment or
continue with same treatment
(same or better - continue;
same or worse - modify)
Figure 3.48 Analytical assessment.
At the end of the physical examination the
therapist should be able to develop further the
working hypothesis begun after the subjective
examination. This will include the following:
• The source of the symptoms and/or
dysfunction, i.e. the structure(s) at fault
• The contributing factors to the condition, be
they environmental, behavioural, emotional,
physical or biomechanical
• Any precaution or contra indications to
treatment
• The prognosis of the condition
• The plan of management of the patien􀄕s
condition.
Inexperienced clinicians may find the management
planning form shown in Figure 3.51 helpful
in guiding them through what is often a complex
clinical reasoning process. Figure 3.52 is a more
advanced management planning form for more
experienced clinicians.
On completion of the physical examination the
clinician should:
Figure 3.49 The treatment plane is indicated by the tine
and passes through the joint and lies 'in' the concave
articular surface. (From Kaltenborn 1 989, with permission.)
• Warn the patient of possible exacerbation up
to 24--48 hours following the examination.
With severe and/or irritable conditions, the
patient may have increased symptoms
following examination.
• Request the patient to report details on the
behaviour of the symptoms following
examination at the next a ttendance.
• Explain the findings of the physical
examination and how these findings relate to
the subjective assessment. An attempt should
be made to clear up any rnisconceptions
patients may have regarding their illness or
injury.
PHYSICAL EXAMINATION 105
• Evaluate the findings, formulate a clinical
hypothesis and write up a problem list, i.e. a
concise numbered list of the patient's
problems at the time of the examination.
Problems for a patellofemoral problem, for
example, could include pain over the knee and
difficulty ascending and descending stairs,
inhibition of vastus medialis oblique (VMO),
tightness of the iliotibial band and hamstring
muscle group, and lateral tilt and external
rotation of the patella. More general problems,
such as lack of general fitness or coping
behaviour should be a lso be included.
• Determine the long- and short-term objectives
for each problem in consultation with the
patient. Short-term objectives for the above
example might be relief of some of the knee
pain, increased contraction of VMO, increased
extensibility of the iliotibial band and
hamstrings, and correction of patellar
malalignment by the end of the third
treatment session. The long-term objective
might be complete resolution of the patient's
problem after six treatment sessions.
• Devise an initial treatment plan in order to
achieve the short- and long-term objectives.
This includes the modalities and frequency of
treatment and any patient education required.
In the example above, this might be treatment
twice a week to consist of passive stretches to
the iliotibial band and hamstrings; passive
accessory movements to the patella; taping to
correct the patellar malalignment; and
exercises with biofeedback to alter the timing
and intensity of VMO contraction in squat
standing, progressing to steps and specific
functional exercises and activities.
106 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Physical examination
Observation
JOint tests
JOint Integrity tests
ActillB and paSSllie JOint movement
Capsular pattern
JOint effusion
Other JOints
Muscle tests
Strength
Control
isometric muscle tests
Muscle bulk
Diagnostic muscle tests
Neurological tests
Neurologlcal lntegnty
Figure 3.50 Physical examination chart.
Mobility of the nervous system
Diagnostic neural tests
Special tests
Function
Palpation
Accessory movements
Other JOints
SNAGS NAGS and MWMs
PHYSICAL EXAMINATION 107
1. Dncflbe the .ubl8ChV. and phYIlCal all.nlk, for each symptomatic If.,
Symptomahc .fe8 Subjective asterisks PhyslCIIl ISlensks
2 Did the phvsical findings veflfy your e,tlmllioll of seventy and Irritability? V" No
Explain why
J Do you expect to be Ir •• lln9
.. ,. paln/rellStlnea , ••• Slane. spasm waakn ••• in.lab!!ily
• Whll l, your hrll choice of Ir •• lm.rll?
Explain why
5 Do you ••p ect the r• •p on,e to Ireatmanl to be
qUick moderate .Iow
Explain why
Figure 3.51 Management planning form (to be completed after the physical examination). (After Maitland 1986.)
108 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
1. What are the patlenl's main functional hmllatlons1
2. Describe the subjective and physicel asteflsks for 8ach Iymptomatic area
Symplomallc BfeB Subjective IIsleriskl Physical asterisks
3. For each symptomatic .rea hst the possible structures al fault. giving the supportmg and neglumg ey,dence
Symptomatic area Possible structures at fault Supporting eVidence Negating evidence
4. Lilt the mechanism of symptom prodUCtion, giving supporting and negating evidence
Mechanism of symptoms Supporting eVidence Negating eVidence
5 Old the phySlcal lindlngs verify your estimation of severity and Irritability? No
ElIp!',"
Figure 3.52 Advanced management planning form (to be completed Oay 1 after the subjective examination). (After Maitland
1 986 and Jones 1 994.)
PHYSICAL EXAMINATION 109
• Llsllhe contributing factors Involved In the patient'. symptoms
7. Indicate the nalure of the condition. Identify the mechanisms of pain production, the structures involved and their
dysfunction/pathology, and any contributing fectors
• EIo:plain the Ilage and development of the underlying pathology
9 How is the patient affected by the dysfunction?
10 What is your lirst choice of treatment?
E)(plain why
1 1 What d o you expect the response to b e over the next 2 4 hours?
Explain why
12 Whet lIlCaminetion procedures need 10 be carried OUI on day 2 and day 37
Day 2 Day 3
Figure 3.52 (cont'd)
1 1 0 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
13 DelCnbe how you would progress Ir8atment and management over Ihe nelct two sessions If the pallen! feCUrns each lime
Ihe same, belief or wo,"
S.m.
Day 1
Day 2
Bener
Day 1
Day 2
Wor ••
DaV 1
Day 2
,. What Ire ,he posItive end n􀁮ahve fectors in Ihe palient's prognosis?
POlltiv. factor. Negative factor.
Sub,ecllve
PhysICal
15 What I' your overall prognOSIS for thiS patient? (E,g. 70% better in five treatments, will clear Irm p.un end reduce neck stiffness by SO".I
Flgur. 3.52 (cont'd)
REFERENCES
American Academy of Orthopaedic Surgeons 1990 Joint
motion. Method of measuring and recording, 3rd edn,
Churchill Livingstone. New York
Amevo 5, Aprill C, Bogduk N 1992 Abnormal instantaneous
axes of rotation in patients with neck pain. Spine 17(7):
748-756
Baldry P E (1993) Acupuncture, trigger points and
musculoskeletal pain. Churchill Livingstone. Edinburgh
Bcrgmark A 1989 Stability of the lumbar spine. A study in
mechanical engineering. Acta Orthop<,edica Scandinavica
230(suppn, 20-24
Breig A 1978 Adverse mechanical tension in the central
nervous system. Almqvist & Wiksell, Stockholm
Butler O S 1991 Mobilis.ltion of the nervous system.
Churchill LiVingstone. Melbourne
Callahan A 0 1995 SenSibility assessment: prerequisites and
techniqu􀄖 for nerve lesions in continuity and nerve
lacerations. In: Ilunter J M, Mackin E J, Callahan A 0 (eds)
Rehabilitation of the hand: surgery and therapy, 4th edn.
Mosby, S. Louis, MO, ch 10, P 129
Chaitow L 1996 Mu􀄗le energy techniques. Churchill
Llving􀂘tone, New York
Cole j H, Furness A L, Twomey L T 1988 Muscles in action,
an appnhlch to manual muscle testing. Churchill
liVingstone, Edinburgh
Comerford M & Kinetic Control 2000 Movement dysfunction
focus on dynamic stability and muscle balance. Kinetic
control course notes
Crawford G N C 1973 The growth of striated muscle
immobilized in eXlension.journal of Anatomy 1 1 4:
165-183
Cyri.,x j 1982 Textbook of orthopa t'
of soft tissue lesions, 8th edn. Baillit}re Tindall, London
Daniels L, Worthingham C 1986 Muscle testing. techniques
of manual examination, 51h cdn. W B Saunders,
Philadelphia, PA
Dyck P 1984 Lumb.lr nen'e rool: the enigmatic eponyms.
Spine 9(1), 'H>
Edwards B C 1992 Manual of combined movements: their
usc in the examination and treatment of mech.lnical
vertebral column disorders. Churchill LiVingstone,
Edinburgh
Edwards B C 1999 Manual of combined movements: their
use in the examination and treatment of mechanical
vertebral column disorders, 2nd edn. ButterworthIleinemann,
Oxford
Elvey R L 1985 Brachial plexus tension tests and the
pathoanatomical origin of arm pain. In: Glasgow E F,
Twomey L T, Scull E R, Kleynhans A M, Idczak R M (eds)
Aspects of manipulative therapy, 2nd edn. Churchill
LiVingstone, Melbourne, ch 17, p 1 1 6
Exelby L 1996 Peripheral mobilisations wilh movement.
Manual Therapy 1 (3): 1 1 B-126
Fmnkel V II, Burstcin A H, Brooks 0 B 1971 Biomechanics of
internal dcmngement of the knee. Pathomechanics as
dctermined by analysis of the instant centres of motion.
Journal of Bone and Joint Surgery 53A(5): 945-962
Gerhardt J J 1992 Documentation of }oint motion, 3rd edn.
lsomcd, Oregon
Gilmore K L 1986 Biomechanics of the lumbar mohon
segment. In: Gricve G r (eel) Modern manual therapy of
PHYSICAL EXAMINATION 1 1 1
the vertebral column. Churchill LiVingstone, Edinburgh,
ch 9, P 103
Gossman M R, Sahrmann S A, Rose S J 1982 Review of
length-aSSOCiated changes in muscle. Physical Therapy
62(12), 1799-1808
Grieve G P 1981 Common vertebral }oint problems. Churchill
Livingstone, Edinburgh
Grieve G P 1991 MobiliScltion of the spine, 5th cdn. Churchill
Livingstone, Edinburgh
Harding V, Williams A C de C, Richardson Pet a1 1994 The
development of a battery of measures for as􀄘ing
physical functioning in chronic pain patients. Pain 58:
367-375
Hides J 1995 Multifidus inhibition in acute low back pain:
recovery is not spontaneous. In: Proceedings of the
Manipulative Physiotherapists Association of Australia,
9th biennial conference, Gold Coast, pp 57-60
Hides J A, Richardson C A, Ju11 G A 1996 Multifidus muscle
recovery is not automatic after resolution of acute, firstepisode
low back pain. Spine 21(23): 2763-2769
Hockaday J M, Whitty C W M 1%7 Patterns of referred pain
in the normal subject. Brain 90: 481-4%
Hodges P 1995 Dysfunction of transversus abdominis
associated with chronic low back pain. In: Proceedings of
the Manipulative Physiotherapists Association of
Australia, 9th biennial conference, Gold Coast,
pp 61-62
Hodges P W, Richardson C A 1996 Inefficient muscular
􀂘tabilizatiol\ of the lumbar spine associated with low back
pain, a motor control evaluation of transversus abdominis.
Spine 21(22), 2640-2650
Inman V T, Saunders j B deC M 1944 Referred pain from
skeletal structurcs. Journal of Nervous and Mental Disease
90,660-667
Janda V 1986 Muscle weakness and inhibition
(pseudoparesis) in back pain syndromes. In: Grieve G P
(ed) Modern manual therapy of the vertebral column.
Churchill Livingstone, Edinburgh, ch 19, p 197
Janda V 1 993 Musc:lestrength in relation to muscle length, p.:lin
and muscle imbalana>. ln: Harms-Ringdahl K (00) Muscle
strength. ChurchiU Livingstone, Edinburgh, ch 6, p 83
Janda V 1994 Muscles and motor control in cervicogcnic
disorders: assessmcnt and management. In: Grant R (ed)
Physical therapy of the cervical and thoracic spine,
2nd edn. Churchill liVingstone, Edinburgh, ch 10,
P 195
Jones M A 1 994 Clinical reasoning process in manipulative
therapy. In: Boyling J D, Palastanga N (eds) Grieve's
modern manual therapy, 2nd edn. Churchill Livingstone,
Edinburgh, ch 34, p 471
Jones M A, Jones II M 1994 Principles of the physical
examination. In: Boyling j 0, Palastanga N (eds) Grieve's
modern manual therapy, 2nd eeln. Churchill Livingstone,
Edinburgh, ch 35, p 491
Jull G A ]994 Examination of the articular system. In: Boyling
J D, Palastanga N (oos) Grieve's modern manual therapy,
2nd eeln. Churchill liVingstone, Edinburgh, ch 37, p 511
Jull G A, Janda V 1987 Muscles and motor control in low
back pain: assessment and management. In: Twomey L T,
Taylor J R (OOs) Physical therapy of the low back.
Churchill Livingstone, Edinburgh, ch 10, p 253
1 1 2 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
1ull G A, Richardson C A 1994 Rch.lbilitation of active
stabilization of the lumb."1f spine. In: Twomey L T,
Taylor J R (eds) Physical ther.lpy of the low back, 2nd ron.
Churchill Livingstone. Edinburgh. eh 9, p 251
Kaltenborn F M 1989 Manuill mobiliz..ltion of the extremity
JOints: basic examination and treatment, 4th ron. Olaf
Norlis Bokhandel, Oslo
Kaltcnborn F M 1993 The spine: basic evaluation and
mobilization techniques, 2nd eeln. Olaf Norlis Bokhandel.
0,,10
Ka7Alrian L 19n Dynamic response characteristics of Ihe
humiln verlchril! column. Acta Orthopaedicil Scandinavica
146, 54-1 1 7
Kendall F P, McCreary E K, Provance P C 1993 Muscles t􀂟ting
and function, 4th (codn. Williams & Wilkins. B..lltimore, MO
Kenneally M, Rubenach H, Elvey R 1988 The upper limb
tension test: the SLR test of the arm. In: Grant R (ed)
Phy"ical therapy of the cervical and thoracic spine.
Churchill Livingstone, Edinburgh, ch 10, p 167
Lee R, EvansJ 1994 Towards a better understanding of spinal
po􀁼tero.'nlerior mohili.Sc,tion. PhYSiotherapy 80(2): 68-73
Lee M, Svensson N L 1990 Measurement of stiffness during
simulated spinal physiotherapy. Clinical Physics and
Physiological Measurement 1 1 (3): 201-207
Lewit K 1991 Mampulative therapy in rehabilitation of the
locomotor system, 2nd eeln. Butterworth-Ileinemann,
Oxford
McKen7ie R A 1981 The lumbar 􀁦pine mechanical diagnosi􀁦
and therapy. Spinal Publications, New Zealand
McKenzie R A 1990 The cervical and thoracic spine
mechanical diagnosis and therapy. Spinal Publications,
New Zealand
Magee D J 1992 Orthopedic physical assessment, 2nd cdn. W
B Saunders, Philadelphia, PA
Maitland G 0 19n Vertebral manipulation, 4th edn.
Butlerworths, London
Maitland G 0 1985 Passive movement techniques for intraarticular
and periarticular disorders. Australian Journal of
Physiother,lpy 31(1): 3--8
Maitland G 0 1986 Vertebral manipulation, 5th edn.
Butterworths, London
Maitland G 0 1991 Peripheral manipulation, 3rd cdn.
Butten\lorths, London
Margarey M 1985 Selection of passive treatment techniques.
In: Proceedings of the Manipulative Therapists
Association of Australia, 4th biennial conference, Brisbane,
pp 298-320
Mariani P P, Caruso 1 1979 An electromyographic
investigation of sublu);ation of the pat('lIa. journal of Bon('
and Joint Surgery 61 B(2): 169-171
Medical Research Council 1976 Aids to the investigation of
peripheral nerve injuries. HMSO, London
Mercer S R,Jull G A 1996 Morphology of the cervical
intervertebral disc: implications for McKenzie's model of
the disc derangement syndrome. Manual Therapy 1 (2):
7(Hl1
Miller A M 1987 Neuro-meningeal limitation of straight leg
raising. In: Dalz.iel B A, SnowsillJ C (eds) Manipulative
Therapists Association of Australia, 5th biennial
conference procecding􀁦, Melbourne, pp 70-78
Mooney V, Robertson J 1976 The facet syndrome. Clinical
Orthopaedics and Related Research 1 1 5: 149-156
Mulligan B R 199:1 Mobilisations with movement (MWMs).
Journal of ManUi'll and Manipulative Theri'lpy 1(4):
154-156
Mulligan B R 1995 Manual therapy 'nags', 'snags', 'MWMs'
etc., 3rd cdn. Plant View Services, "lew Z,e,liand
Newham 0 j 1997 Strength, power and endurance. In: Trew
M, Everett T (eels) Iluman movement, :1rd edn. Churchill
Livingstone, New York, ch 13, p 20 I
Norris C M 1995 Spinal !;tabilisation, muscle Imbalance and
the low back. Physiotherapy 81(3): 127-138
Noyes F R, Delucas J L, Torvik P J 1974 Biomechanics of
anterior cruciate ligament failure: an analysio; of strain-rate
sensitivity and mechanisms of f,lliure in primates. Journal
of Bone and joint Surgery 56A(2): 236-253
Panjabi M M 1992 The stabilising "y􀅪tem of the "pine: part II.
Neutral zone and instability hypothesi􀁦. Journ,ll of Spinal
Disorders 5(4): 390-396
Pennal G F, Conn G S, McDonald G, Dale G, Garside H 1972
Motion studies of the lumb.1r spine, a preliminary report.
Journal of Bone and Jomt Surgery 54B(3): 442-452
s..,hrmann 5 A 1993 DiagnOSiS and tr('atment of movement
system imbalances associated with musculoskeletal pain.
Lecture notes, Washington Univel1>itv School of Medicine,
Washington, OC
5.,hrmann S A 2001 DiagnOSiS and treatment of movement
impairment syndromes. Churchill LiVingstone, Edinburgh
Shacklock M 1995 Neurodynamics. PhYSiotherapy 81(1): 9-16
Shah J S, Hampson W G j, Jayson M I V 1978 The distribution
of surface strain in the cadaveric lumbar ,>pine.Journal of
Bone and Joint Surgery 6OB(2): 246--251
Shorland S 1998 Management of chronic p..lin follOWing
whiplash injuries. In Gifford L (ed) Topical i!;su('S in p.:lin.
NOI, Falmouth, eh 8, p 1 1 5-134
Slater H 1989 nle effect of foot and ankle position on the
r􀂟ponse to the SLR test. In: Jones II M, jones M A, Milde
M R (eds) Manipulative Therapi5;ts A􀁼socialion of
Australia, 6th biennial conference proc('(>CIings, Adelaide,
pp 183-190
Stokes M, Young A 1986 Measurement of quadriceps croSsMo'C
tional area by ultrasonography: it description of the
technique and its application in physiotherapy.
Physiotherapy Practice 2: 11-36
Tencer A F, Allen B L, Ferguson R L 1985 A biomt."Chanical
study of thor
canal: part 111. Mechanical properties of the dura and it.;;
tethering ligaments. Spine 10(8): 741-747
Travell J G, Simons D C 1983 Myofa'tCial p..lin and
dysfunction: the trigger point manual. Williilm" & Wilkin .. ,
Baltimore, MD
VOight M L, Wieder D L 1991 Comparative refle\( response
limes of vastus medialis obhquus and vastus lateralis in
normal sub;ects and subJCCt􀁼 with (,,,,tensor mcchani"m
dysfunction. The American Journal of Sports Medicine
19(2), 1 31-137
Walton J H 1989 Essentials of neurology, 6th cdn. Churchill
Livingstone, Edinburgh
White S G, 5.1hrmann S A 199 .. A movement sy􀅫tem bal'lnce
approach to musculoskeletal pain. In: Grant R (ed)
Physicai therapy of the cervicnl and thoracic spine, 2nd
edn. Churchill liVingstone, Edinburgh, ch 16, p 339
Williams P L, S.,nnister L 1-1, Berry M M et al (cds) 1995 Gray's
anatomy, 38th edn. Churchill liVingstone, Edinburgh
Young A, Hught'S I, Round J M, Edwards R Ii T 1982 The
effect of knee injury on the number of muscle fibrl:'S in the
human quadriceps femoris. Cll1lical Science 62: 227-234
2usman M 1998 Structure orientated beliefs and disability
due to back pain. Australian journal of Physiotherapy 44'
13-20
CHAPTER CONTENTS
Possible causes of pain andlor limitation of
movement 113
Subjective examination 114
Body chart 114
Behaviour of symptoms 115
Special questions 116
Hislory of the present condition (HPC) 116
Past medical history (PMH) 116
Social and family history 117
Plan of the physical examination 117
Physical examination 117
Observation 117
Joint tests 119
Muscle tests 121
Neuroiogical lests 122
Special tests 122
Functional ability 122
Palpation 123
Accessory movements 123
Completion of the examination 127
Examination of the
temporomandibular joint
POSSIBLE CAUSES OF PAIN ANDIOR
LIMI TATION OF MOVEMENT
• Deviation in form
• Articular disc displacement (acute or
chronic) with or without reduction
• Hypermobility
• Dislocation
• Degenerative conditions - osteoarthrosis
or polyarthritides
• Inflammatory conditions - synovitis or
capsulitis
• Ankylosis - fibrous or bony ankylosis
• Masticatory muscle disorders
• Neoplasm - malignant or benign
• Cranial neuralgia
• Referral of symptoms from the upper
cervical spine, cervical spine, cranium,
eyes, ears, nose, sinuses, teeth, mouth or
other facial structures
Disorders of the temporomandibular joint (TMJ)
can often be associated with symptoms from the
upper cervical spine (CO--C3). The upper cervical
spine can refer pain to the same areas as the TMj,
i.e. the frontal, retro-orbital, temporal and occipital
areas of the head (Feinstein et al 1954). For
this reason, it is suggested that exam illation of
the TMj is always accompanied by examination
113
114 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
of the upper cervical spine. The TMJ may also
refer pain into the preauricular area or along the
mandible.
Further details of the questions asked during
the subjective examination and the tests carried
out during the physical examination can be
found in Chapters 2 and 3 respectively.
The order of the subjective questioning and the
physical tests described below can be altered as
appropriate for the patient being examined.
SUBJECTIVE EXAMINATION
Body chart
The following information concerning the area
and type of current symptoms should be recorded
on a body chart (see Fig. 2.4).
Area of current symptoms
Be exact when mapping out the area of the symptoms.
Symptoms can include crepitus, clicking (on
opening and/or closing), grating, thudding
sounds and joint locking, limitation or difficulty in
jaw movement, as well as pain around the joint,
head and neck. Ascertain which is the worst symptom
and record the patient's interpretation of
where s/he feels the symptoms are coming from.
Areas relevant to the region being examined
Clear all other areas relevant to the region being
examined, especially between areas of pain,
paraesthesia, stiffness or weakness. Mark these
unaffected areas with ticks (,f) on the body chart.
There are anatomical (Rocabado 1983, Ayub et al
1984, Darling et al 1987) links between the temporomandibular
joint and the cervical spine, particularly
the upper cervical spine, and so the
clinician needs to check carefully for any symptoms
in the cervical spine. Symptoms in the tho­
racie spine, head, mouth and teeth also need to be
checked. Ask whether the patient has ever experienced
any dizziness. This is relevant for symptoms
emanating from the cervical spine where vert􀆇
brobasilar insufficiency (VBI) may be provoked. U
dizziness is a feature described by the patient, the
clinician determines what factors aggravate and
what factors ease the symptoms, the duration and
severity of the dizziness and its relationship with
other symptoms such as disturbance in vision,
diplopia, nausea, ataxia, 'drop attacks', impairment
of trigeminal sensation, sympathoplegia,
dysarthria, hemianaesthesia and hemiplegia
(Bogduk 1994).
Quality of pain
Establish the quality of the pain.
Intensity of pain
The intensity of pain can be measured using, for
example, a visual analogue scale (V AS) as shown
in the examination chart at the end of this chapter
(Fig. 4.6). A pain diary (Ch. 2) may be useful for
patients with chronic temporomandibular joint or
cervical spine pain and/or headaches, to determine
the pain patterns and triggering factors over
a period of time.
Depth of pain
Discover the patient's interpretation of the depth
of the pain.
Abnormal sensation
Check for any altered sensation locally over
the TMJ and, if appropriate, over the face, cervical
spine, upper thoracic spine or upper limbs.
Constant or intermittent symptoms
Ascertain the frequency of the symptoms, whether
they are constant or intermittent. If symptoms are
constant, check whether there is variation in the
intensity of the symptoms, as constant unremitting
pain is indicative of neoplastic disease.
Relationship of symptoms
Determine the relationship between the symptomatic
areas - do they come together or separately?
For example, the patient may have pain
EXAMINATION OF THE TEMPOROMANDIBULAR JOINT 115
over the jaw without neck pain, or they may
always be present together.
Behaviour of symptoms
Aggravating factors
For eadl symptomatic area, discover what movements
and/or positions aggravate the patien􀃸s
symptoms, i.e. what brings them on (or makes
them worse), how long it takes to aggravate them
and what happens to other symptom(s) when one
symptom is produced (or is made worse). These
questions help to confirm the relationship between
the symptoms.
The clinician also asks the patient about theoretically
known aggravating factors for structures
that could be a source of the symptoms.
Common aggravating factors for the TMJ are
opening the mouth, yawning and chewing more
challenging foods sllch as nuts, meat, raw fruH
and vegetables. Aggravating factors for other
joints, which may need to be queried if any of
these joints is suspected to be a source of the
symptoms, are shown in Table 2.3.
Easing factors
For eadl symptomatic area, the clinician asks what
movements and/or positions ease the patient's
symptoms, how long it takes to ease them and
what happens to other symptoms when one symptom
is relieved. These questions help to confirm
the relationship between the symptoms.
The clinician asks the patient about theoreticaUy
known easing factors for structures that could be a
source of the symptoms. For example, symptoms
from the TMJ may be eased by placing the joint in
a particular position, whereas symptoms from the
upper cervical spine may be eased by supporting
the head or neck. TIle clinician should analyse the
position or movement that eases the symptoms in
order to help determine the structure at fault.
Severity and irritability of symptoms
Severity and irritability are used to identify
patients who will not be able to tolerate a full
physical examination. IUhe patient is able to sustain
a position that reproduces the symptoms then
the condition is considered to be nOll-severe and
overpressures can be applied in the physical examination.
If, however, the patient is unable to sustain
the position, then the condition is considered
severe and no overpressures should be attempted.
If symptoms ease immediately foLlowing provocation,
the condition is considered to be non-irritable
and aLi movements can be tested in the physical
examination. If the symptoms take a few minutes
to ease then the symptoms are irritable and only a
few movements should be attempted to avoid
exacerbating the patien􀃸s symptoms.
Twenty-four hour behaviour
The clinician determines the 24-hour behaviour
of symptoms by asking questions about night,
morning and evening symptoms.
Night symptoms. The following questions
should be asked:
• Do you have any difficulty getting to sleep?
• What position is most comfortable!
uncomfortable?
• What is your normal sleeping position?
• What is your present sleeping position?
• Do you grind your teeth at night?
• Do your symptom(s) wake you at night? If so,
- Which symptom(s)?
- How many times in the past week?
- How many times in a night?
- How long does it take to get back to sleep?
• How many and what type of pillows are used?
Morning and evening symptoms. TI,e clinician
determines the pattern of the symptoms first thing
in the morning, through the day and at the end of
the day. Patients who grind their teeth at night will
often have headaches and facial, jaw and tooth
symptoms in the morning (Kraus 1994).
Function
The clinician ascertains how the symptoms vary
according to various daily activities such as:
• Static and active postures, e.g. sitting, reading,
writing (the patient may lean the hand on the
jaw to support the head when reading or
116 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
writing), using the telephone (it may be held
between the head and shoulder), eating,
drinking, etc. Establish whether the patient is
left- or right-handed. The patient may have a
habit of biting fingernails or chewing hair, pen
or pencil tops, all of which may stress the TMJ.
• Work, sport and social activities that may be
relevant to the TMJ. Sporting activities that may
affect the TMJ are shot putting and snooker.
Detailed information on each of the above
activities is useful to help determine the structure
at fault and to identify clearly the functional
restrictions. This information can be used to
determine the aims of treatment and any advice
that may be required. The most important functional
restrictions are highlighted with asterisks
(*) and reassessed at subsequent treatment sessions
to evaluate treatment intervention.
Stage of the condition
In order to determine the stage of the condition, the
clinician asks whether the symptoms are getting
better, getting worse or remaining unchanged.
Special questions
Special questions must always be asked, as
they may identify certain precautions or absolute
contraindications to spinal examination (see
Table 2.4). As mentioned in Chapter 2, the
clinician must differentiate between conditions
that are suitable for conservative treatment
and systemic, neoplastic and other nonneuromusculoskeletal
conditions, which require
referral to a medical practitioner. The reader is
referred to the appendix to Chapter 2 for details
of various serious pathological processes that can
mimic neuromusculoskeletal conditions (Grieve
1994).
The following information should be obtained
routinely for all patients.
General health. The clinician ascertains the
state of the patient's general health - find out if
the patient suffers any malaise, fatigue, fever,
nausea or vomiting, stress, anxiety or depression.
Weight loss. Has the patient noticed any recent
unexplained weight loss?
Rheumatoid arthritis. Has the patient (or a
member of his/her family) been diagnosed as
having rheumatoid arthritis?
Drug therapy. Find out what drugs are being
taken by the patient. Has the patient ever been
prescribed long-term (6 months or more) medication
or steroid therapy? Has the patient been
taking anticoagulants recently?
X-rays and medical imaging. Has the patient
been X-rayed or had any other medical tests
recently? Routine spinal X-rays are no longer
considered necessary prior to conservative treatment
as they only identify the normal age-related
degenerative changes, which do not correlate
with the patient's symptoms (Clinical Standards
Advisory Report 1994). The medical tests may
include blood tests, magnetic resonance imaging,
myelography, discography or a bone scan.
Neurological symptoms. Has the patient experienced
symptoms of spinal cord compression,
which are bilateral tingling in hands or feet
and/or disturbance of gait?
Dizziness. This has been explored previously in
the body chart section.
History of the present condition
(HPC)
For each symptomatic area, the clinician should
discover how long the symptom has been present,
whether there was a sudden or slow onset
and whether there was a known cause that provoked
the onset of the symptom, such as trauma,
stress, surgery or occupation. If the onset was
slow, the clinician should find out if there has
been any change in the patient's life-style, e.g. a
new diet, recent dental treatment or other factors
contributing to increased stress felt by the
patient. To confirm the relationship between
symptoms, the clinician asks what happened to
other ymptoms when each symptom began.
Past medical history (PMH)
The following information should be obtained
from the patient and/or the dental/medical notes:
• The details of any relevant dental/medical
history, particularly involving the teeth, jaw,
cranium or cervical spine.
EXAMINATION OF THE TEMPOROMANDIBULAR JOINT 117
• The history of any previous attacks: how
many episodes, when were they, what was the
cau e, what was the duration of each episode
and did the patient fully recover between
episodes? If there have been no previous
attacks, has the patient had any episodes of
stiffness in the TMJ or cervical spine? Check
for a history of trauma or recurrent minor
trauma.
• Ascertain the results of any past treatment for
the same or similar problem. Past treatment
records may be obtained for further
information.
Social and family history
Social and family history that is relevant to the
onset and progression of the patient's problem
should be recorded. Examples of relevant information
might include the age of the patient, employment,
the home situation, any dependants and
details of any leisure activities. Factors from this
information may indicate direct and/or indirect
mechanical influences on the TMJ. In order to treat
the patient appropriately, it is important that the
condition is managed within the context of the
patient's social and work environment.
Plan of the physical examination
When all this information has been collected, the
subjective examination is complete. It is useful at
this stage to highlight with asterisks (*), for ease
of reference, important findings and particularly
one or more functional restrictions. These can
then be re-examined at subsequent treatment
sessions to evaluate treatment intervention.
In order to plan the physical examination, the
following hypotheses need to be developed from
the subjective examination:
• The structures that must be examined as a
possible cause of the symptoms, e.g.
temporomandibular joint, upper cervical
spine, cervical spine, thoracic spine, soft
tissues, muscles and neural tissues. Often, it is
not possible to examine fully at the first
attendance and so examination of the
structures must be prioritized over
subsequent treatnlent sessions.
• Other factors that need to be examined, e.g.
working and everyday postures, vertebral
artery, muscle weakness.
• An assessment of the patient's condition in
terms of severity, irritability and nature (SIN):
- Severity of the condition: if severe, no
overpressures are applied
- Irritability of the condition: if irritable,
fewer movements are carried out
- Nature of the condition: the physical
examination may require caution in certain
conditions such as vertebrobasilar
insufficiency, neurological involvement,
recent fracture, trauma, steroid therapy or
rheumatoid arthritis; there may also be
certain contra indications to further
examination and treatment, e.g. symptoms
of cord compression.
A planning form can be useful for clinicians to
help guide them through the often complex clinical
reasoning process (see Figs 2.11 & 2.12).
PHYSICAL EXAMINATION
Throughout the physical examination, the clinician
must aim to find physical tests that reproduce
each of the patient's symptoms. Each of these
positive tests is highlighted by an asterisk (*) and
used to determine the value of treatment intervention
within and between treatment sessions.
The order and detail of the physical tests described
below need to be appropriate to the patient being
examined. Some tests will be irrelevant, others will
only need to be carried out briefly, while others
will need to be fully investigated.
Observation
Informal observation
The clinician should observe the patient in dynamic
and static situations; the quality of movement
is noted, as are the postural characteristics
and facial expression. Informal observation will
have begun from the moment the clinician begins
the subjective examination and will continue to
the end of the phYSical examination.
118 NEUROMUSCULOSKELETA.L EXAMINATION AND ASSESSMENT
Formal observation
Observation of posture. The clinician checks the
bony and soft tissue contours of the face and TMJ.
The clinician observes the resting position of the
mandible (RPM), also known as the upper postural
position of the mandible (UPPM). In the RPM
the back teeth are slightly apart, the mandible is in
a relaxed position and the tip of the tongue lies
against the palate just posterior to the UU1er surface
of the upper central incisors. The clinician checks
the intercuspal position OCP), in which the back
teeth are closed together, and observes the
patient's teeth for malocclusion such as crossbite
(mandibular teeth anterior to maxillary teeth),
overbite (maxillary teeth anterior to mandibular
teeth) or deviation of the mandible to one side.
Check whether bipupital, otic and occlusive lines
of the face are parallel (Fig. 4.1). Note whether the
distance between the outer corner of the eye and
mouth, AB, is equal to the distance from nose to
chin, CD (Fig. 4.2); reduction of the latter distance
by more than 1 mm indicates loss of teeth, overbite
or crossbite (Magee 1992). Check the wear of any
false teeth and the state of the patient's gums.
It should be noted that pure postural dysfunction
rarely influences one region of the body in
isolation and it will be necessary to examine the
patient's posture in sitting and standing, noting
the posture of head and neck, thoracic spine and
upper limbs. The clinician passively corrects any
asymmetry to determine its relevance to the
patient's problem.
If.' ------ -...
. . . ----- '---'-􀀐- -------- Blpupllal hne
------- ----::::---- --------Olic line
Figure 4.1 Symmetry of the face can be tested comparing
the bipupital, otic and occlusive lines, which should be
parallel. (From Magee 1992, with permission.)
,
,
I \
\
􀀎 􀀏
t @' 􀀅 r I <
C)
\ c
\
\ 􀀄
o
Figure 4.2 Measurement of the vertical dimension of lace.
Normally the distance AS is equal 10 CD. (From Trait 1986.
with permission.)
Observation of muscle form. The muscles of
mastication are the masseter, temporalis, medial
pterygoid and lateral pterygoid. Only the masseter
and temporalis are visible and may be
enlarged or atrophied. If there is postural abnormality
that is thought to be due to a muscle
imbalance then the muscles distant to the TMJ
around the cervical spine and shoulder girdle
should be inspected. Some of these muscles are
thought to shorten under stress, while other
muscles weaken, producing muscle imbalance
(see Table 3.2). Patterns of muscle imbalance are
more fully dealt with in Chapter 3 and also more
specifically in Table 6.1.
Observation of soft tissues. The clinician
observes the colour of the patient's skin, any
swelling over the TMJ, face or gums, and takes
cues for further examination.
Observation of the patient's attitudes and feelings.
The age, gender and ethnicity of patients and their
cultural, occupational and social backgrounds will
all affect their attitudes and feelings towards themEXAMINATION
OF THE TEMPOROMANDIBULAR JOINT 119
selves, their condition and the clinician. The clinician
needs to be aware of and sensitive to these
attitudes, and empathize and communicate appropriately
so as to develop a rapport with the patient
and thereby enhance the patien􀃹s compliance with
the treatment.
Joint tests
joint tests include integrity tests and active and
passive physiological movements of the TMJ and
other relevant joints. Passive accessory movements
complete the joint tests and are described
towards the end of the physical examination.
Joint integrity tests
There are no joint integrity tests known to the
authors for the TMj, but some minor subluxations
may be palpable by the clinician during
active movements of the joint.
If instability of the upper cervical spine is suspected,
stress tests should be carried out; these
are described in Chapter 5 on the examination of
the upper cervical spine.
Active and passive physiological joint movement
For both active and passive physiological joint
movement, the clinician should note the following:
• The quality of movement - deviation, crepitus
or a click on opening and/ or closing the
mouth
• The range of movement; excessive range,
particularly opening, may indicate
hypermobility of the TMj
• The behaviour of pain through the range
• The resistance through the range of movement
and at the end of the range of movement
• Any provocation of muscle spasm.
A movement diagram can be used to depict
this information.
Active physiological joint movement with overpressure.
The active movements with overpressure
listed below are shown in Figure 4.3 and can
be tested with the patient sitting or lying supine.
The clinician establishes the patien􀃹s symptoms
at rest and prior to each movement, and corrects
any movement deviation to determine its relevance
to the patien􀃺s symptoms. Palpation of the
movement of the condyles during active movements
can be useful in feeling the quality of the
movement. Excessive anterior movement of the
lateral pole of the mandible may indicate TMJ
hypermobility. During mouth opening, a small
indent can normally be palpated posterior to the
lateral pole. A large indentation indicates hypermobility
of the TM]. Ii unilateral hypermobility is
present, the mandible deviates towards the contralateral
side of the hypermobile joint at the end
of opening. Auscultation of the joint during jaw
movements enables the clinician to listen to any
joint sounds. The range of movement can be measured
using a ruler.
For the TMJ, the following should be tested:
• Depression (opening)
• Elevation (closing)
• Protraction
• Retraction
• Depression in retracted position
• Left lateral deviation
• Right lateral deviation.
Modifications to the examination of active physiological
movements. For further information
about the active range of movement, the following
can be carried out:
• The movement can be repeated
• The speed of the movement can be altered
• Movements can be combined, e.g.
- Opening then lateral deviation
- Lateral deviation then opening
- Protraction then opening
- Retraction then opening
• Movements can be sustained
• The injuring movement, i.e. the movement
that occurred at the time of the injury, can be
tested
• Differentiation tests.
Various differentiation tests (Maitland 1991) can
be performed, the choice depends on the patien􀃺s
signs and symptoms. For example, when cervical
flexion reproduces the patien􀆈s TMJ pain in
sitting, the addition of slump sitting (see Fig. 3.32)
or knee extension may help to differentiate the
120 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
A
C
structures at fault. Slump sitting or knee extension
will increase synlptoms if abnormal neurodynamics
is causing the symptoms, but will produce no
change if the headaches are caused by the joints or
soft tissues of the cervical spine.
Capsular paNern. The capsular pattern for the
temporomandibular joint is restriction in opening
the mouth (Cyriax 1982).
Passive physiological joint movement. The clinician
can move the TMJ passively with the
patient in the supine position. A comparison of
the response of symptoms to the active and passive
movements can help to determine whether
the structure at fault is non-contractile (articular)
B
Figure 4.3 Overpressures to the TMJ. A Depression
(opening) and elevation (closing). The fingers and thumbs of
both hands gently grasp the mandible to depress and elevate
the mandible. B Protraction and retraction. Gloved thumbs
are placed just inside the mouth so that the flexed thumbs lie
on the posterior aspect of the bottom front teeth. Thumb
pressure can then protract and retract the mandible.
C Lateral deviation. The left hand stabilizes the head while
the right hand cups around the mandible and moves the
mandible to the left and right.
or contractile (extra-articular) (Cyriax 1982). If
the lesion is non-contractile, such as iigarnent,
then active and passive movements will be
painful and/or restricted in the same direction.
If the lesion is in a contractile tissue
(Le. muscle) then active and passive movements
are painful and/or restricted in opposite
directions.
Other joints
Other joints apart from the temporomandibular
joint usually need to be examined to prove or
disprove their relevance to the patient's condiEXAMINATION
OF THE TEMPOROMANDIBULAR JOINT 121
Table 4.1 Clearing tests
Joint
Cervical spine
Thoracic spine
Temporomandibular
joint
Physiological
movement
Quadrants
Rotation and
quadrants
Open/close jaw,
side to side
movement,
protraction!
retraction
Accessory
movement
Palpation
Palpation
Posteroanterior
glide and medial
glide
tion. The joints most likely to be a source of
symptoms are the upper cervical spine, cervical
spine and thoracic spine. These joints can be tested
fully (see relevant chapter) or, if they are not
suspected to be a source of symptoms, the relevant
clearing tests can be used (Table 4.1).
Muscle tests
Muscle tests include examining muscle strength,
control, length and isometric contraction.
Muscle strength
The clinician should test muscle groups that depress,
elevate, protract, retract and laterally deviate
the mandible and, if applicable, the cervical
flexors, extensors, lateral flexors and rotators. For
details of these general tests, the reader is directed
to Daniels & Worthingham (1986), Cole et al (1988)
or Kendall et al (1993). Kraus (1994), however, considers
mandibular muscle weakness to be rare in
TMJ disorders and difficult to determine manually.
Janda (1994) considers that suprahyoid and
mylohyoid muscles have a tendency to weaken.
Muscle control
Excessive masticatory muscle activity is thought
to be a factor in TMJ conditions. Muscle hyperactivity
alters the normal sequence of swallowing
because of an altered position of the tongue,
which is thrust forward in the mouth (tongue
thrust). The clinician can determine muscle
hyperactivity indirectly by palpating the hyoid
bone and suboccipital muscles (Fig. 4.4) as the
patient swallows some water (Kraus 1994). A
Figure 4.4 The left hand palpates the suboccipital muscles
and the right hand palpates the hyoid bone as the patient
swallows some water.
slow and upward movement of the hyoid bone,
as opposed to the normal quick up and down
movement, and contraction of the subOCCipital
muscles, suggest a tongue thrust and indicate
hyperactivity of the masticatory muscles.
Testing the muscles of the cervical spine and
shoulder girdle may be relevant for some
patients and is described in Chapter 6.
Muscle length
There are no described tests known by the
authors for the masticatory muscles.
Testing the muscles of the cervical spine and
shoulder girdle is described in Chapter 6.
Isometric muscle testing
Test the muscle groups that depress, elevate, protract,
retract and laterally deviate the mandible
in the resting position and, if indicated, in various
parts of the physiological ranges. Also, if
applicable, test the cervical flexors, extensors, lateral
flexors and rotators. In addition the clinician
observes the quality of the muscle contraction
necessary to hold this position (this can be done
with the patient's eyes shut). The patient may,
for example, be unable to prevent the joint from
moving or may hold with excessive muscle activ122
NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
ity; either of these circumstances would suggest
a neuromuscular dysfunction.
Neurological tests
Neurological examination involves examining
the integrity of the nervous system, the mobility
of the nervous system and specific diagnostic
tests.
Integrity of nervous system
Generally, if symptoms are localized to the upper
cervical spine and head, neurological examination
can be limited to C1-C4 nerve roots.
Dermatomesiperipheral nerves. Light touch and
pain sensation of the face, head and neck are tested
using cotton wool and pinprick respectively,
as described in Chapter 3. A knowledge of the
cutaneous distribution of nerve roots (dermatomes)
and peripheral nerves enables the clinician
to distinguish the sensory loss due to a root
lesion from that due to a peripheral nerve lesion.
The cutaneous nerve distribution and dermatome
areaS are shown in Figure 3.18.
Myotomesiperipheral nerves. The following
myotomes are tested and are shown in Figure
3.26:
• Root - joint action
• Cl-2 - upper cervical flexion
• C2 and 5th cranial- upper cervical extension
• C3 and 5th cranial- cervical lateral flexion
• C4 - shoulder girdle elevation.
A working knowledge of the muscular distribution
of nerve roots (myotomes) and peripheral
nerves enables the clinician to distinguish the
motor loss due to a root lesion from that due to a
peripheral nerve lesion. The facial nerve (7th cranial)
supplies the muscles of facial expression,
and the mandibular nerve (5th cranial) supplies
the muscles of mastication.
Reflex testing. There are no deep tendon reflexes
for C1-C4 nerve roots. The jaw jerk is elicited by
applying a sharp downward tap on the chin with
the mouth slightly open. Contraction of the masseters
and consequent elevation of the mandible
comprise the nonna! response.
Mobility of the nervous system
The following neurodynamic tests may be carried
out in order to ascertain the degree to which
neural tissue is responsible for the production of
the patient's symptom(s):
• Passive neck flexion (PNF)
• Upper limb tension tests (UL TT)
• Straight leg raise (SLR)
• Slump.
These tests are described in detail in Chapter 3.
Other neural diagnostic tests
Chvostek test for facial nerve palsy. To carry out
this test, the clinician taps the parotid gland over
the masseter muscle. Twitching of the facial muscles
indicates facial nerve palsy (Magee 1992).
Plantar response to test for an upper motor neurone
lesion (Walton 1989). Pressure applied from
the heel along the lateral border of the plantar
aspect of the foot produces flexion of the toes in the
normal. Extension of the big toe with downward
fanning of the other toes occurs with an upper
motor neurone lesion.
Special tests
In the case of the TMj, these are vascular tests, as
follows:
• Vertebral artery test (Sheehy et a11990). This is
described in detail in Chapter 5 on the
examination of the upper cervical spine.
• If the circulation is suspected of being
compromised, the clinician palpates the pulses
of the carotid, facial and temporal arteries.
Functional ability
Some functional ability has already been tested
by the general observation of jaw movement as
the patient has talked during the subjective
examination. Any further testing can be carried
out at this point in the examination and may
include sitting and sleeping postures, usil)g the
telephone, brushing teeth, etc. Clues for appropriate
tests can be obtained from the subjective
EXAMINATION OF THE TEMPOROMANDIBULAR JOINT 123
examination findings, particularly the aggravating
factors.
Palpation
The TMJ and the upper cervical spine (see Ch. 5
for details) are palpated. It is useful to record
palpation findings on a body chart (Fig. 2.4)
and/or palpation chart (Fig. 3.37).
The clinician should note the following:
• The temperature of the area
• Localized increased skin rnoisture
• The presence of oedema or effusion
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules, thickening of deep
suboccipital tissues
• position and prominence of the mandible and
TMJ
• The presence or elicitation of any muscle spasm
• Tenderness of bone, ligament, muscle
(masseter, temporalis, medial and lateral
pterygoids, splenius capitis, suboccipital
muscles, trapezius, sternocleidomastoid,
digastric), tendon, tendon sheath and nerve.
Check for tenderness of the hyoid bone and
thyroid cartilage. Test for the relevant trigger
points shown in Figure 3.38
• Pain provoked or reduced on palpation.
Accessory movements
It is useful to use the palpation chart and movement
diagrams (or joint pictures) to record
findings. These are explained in detail in Chapter
3.
The clinician should note the following:
• The quality of movement
• The range of movement
• The resistance through the range and at the
end of the range of movement
• The behaviour of pain through the range
• Any provocation of muscle spasm.
Temporomandibular joint
Dynamic loading and distraction. The clinician
places a cotton roll between the upper and lower
third molars on one side only and the patient is
asked to bite on to the roll noting any pain produced.
Pain may be felt on the left or right TMJ as
there will be distraction of the TMJ on the side of
the cotton roll and compression of the TMJ on the
contralateral side (Hylander 1979). Pain on the
side of the cotton roll is indicative of capsulitis
(Kraus 1993).
Passive loading (retrusive overpressure). The
patient is asked to hold the back teeth slightly
apart. The clinician holds on to the chin with the
thumb and index finger with one hand, and with
the other hand supports the head to provide a
counterforce. The clinician then applies a posterosuperior
force on the mandible centrally and
then with some lateral inclination to the right
and left. This test can be positive, reproducing
the patient's pain, in both capsulitis and synovitis
(Kraus 1993).
The temporomandibular joint accessory movements
are shown in Figure 4.5 (Maitland 1991)
and are as follows:
anteroposterior
posteroanterior
med medial transverse
tat lateral transverse
caud longitudinal caudad
ceph longitudinal cephalad.
For further information when examining the
accessory movements, alter the:
• Speed of force application
• Direction of the applied force
• Point of application of the applied force
• Position of the joint - accessory movements
can be carried out with the mandible
depressed, elevated, protracted, retracted,
laterally deviated, or a combination of these
positions.
Following accessory movements, the clinician
reassesses all the asterisks (movements or tests
that have been found to reproduce the patient's
symptoms) in order to establish the effect of the
accessory movements on the patient's signs and
symptoms. This helps to prove/disprove the
structure(s) at fault.
124 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
A
C
E
Other joints as applicable
Accessory movements can then be tested for
other joints suspected to be a source of the symp-
B
D
Figure 4.5 Accessory movements to the TMJ.
A Anteroposterior. With the patient in side tie, thumbs apply
an anteroposterior pressure to the anterior aspect of the
head of the mandible.
B Posteroanterior. With the patient in side lie, thumbs apply
an anteroposterior pressure to the posterior aspect of the
head of the mandible.
C Medial transverse. With the patient in side lie, thumbs
apply a medial pressure to the lateral aspect althe head of
the mandible.
o Lateral transverse. The patient is supported in sitting. The
left hand supports the head while the gloved right hand is
placed inside the mouth so that the thumb resls along the
medial suliace of the mandible. Thumb pressure can then
produce a lateral glide of the mandible.
E Longitudinal cephalad and caudad. With the patient sitting
and the lett hand supporting the head, the right gloved hand
is placed inside the mouth so that the thumb rests on the top
of the lower back teeth. The thumb and outer fingers then
grip the mandible and apply a downward pressure
(longitudinal caudad) and an upward pressure (longitudinal
cephalad).
toms; by reassessing the asterisks the clinician is
then able to prove/disprove the structure(s) at
fault. Joints likely to be examined are the upper
cervical spine, cervical spine and thoracic spine.
EXAMINATION OF THE TEMPOROMANDIBULAR JONI' 125
Subjective examination Name
Age
Body chart
Date
24 hour behaviour
. .
.
.- .,
'.
..... ... 􀀃 􀀄 􀀅+􀀆 Function
) ImproVing Static Worsening
""w
Special questions
General health
Weight loss
RA
Relationship of symptoms Drugs
Steroids
Anticoagulants
X-ray
Cord symptoms
Dlzzlnesss
Aggravating factors HPC
Severe Irritable PMH
EaSing factors
SH &FH
I I
No pain Pain as bad as It
IntenSity of pam could possibly be
Figure 4.6 Temporomandibular joint examination.
126 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Physical examination
Observation
Jomt tests
Active and paSSive JOint movement
Depression
Elevation
Protraction
Retraction
Depression in retraction
L lat deviation
A lat deviation
Capsular pattern
Other JOints
Muscle tests
Muscle strength
Muscte control
(swallowing)
Yes No
Isometric muscle tests
NeurologIcal tests
Integrity of the nervous system
Moblhty of the nervous system
Flgur.4.6 (cont'dj
Diagnostic tests
(Chvostek test)
Special tests
(vertebral artery, pulses)
Function
Palpation
Accessory movements
Other JOints
EXAMINATION OF THE TEMPOROMANDIBULAR JOINT 127
COMPLETION OF THE EXAMINATION
Having carried out the above tests, the examination
of the temporomandibular joint is now complete.
The subjective and physical examinations
produce a large amount of information, which
needs to be recorded accurately and quickly. An
outline examination chart rnay be useful for
some clinicians and one is suggested in Figure
4.6. It is important, however, that the clinician
does not examine in a rigid manner, simply following
the suggested sequence outlined in the
chart. Each patient presents differently and this
should be reflected in the examination process. It
is vital at this stage to highlight with an asterisk
(*) important findings from the examination.
These findings must be reassessed at, and within,
subsequent treatment sessions to evaluate the
effects of treatment on the patient's condition.
On completion of the physical examination the
clinician should:
REFERENCES
Ayub E, Glashecn-Wray M, Kraus 5 1984 Head posture: a
case study of the effects on the rest position of the
mandible. Journal of Orthopaedic and Sports Physical
Therapy 5(4), 179-183
Bogduk N 1994 Cervical causes of headache and dizziness.
In: Boyling J D. Palastanga N (eds) Grieve's modern
manual therapy, 2nd ron. Churchill Livingstone,
Edinburgh, ch 22. p 317
Clinical Standards Advisory Report 1994 Report of a CSAG
committee on back pain. HMSO. London
Cole J H, Furness A L. Twomey L T 1988 Muscles in action:
an appro.1ch to manual muscle testing. Churchill
Livingstone, Edinburgh
Cyriax J 1982 Textbook of orthopaedic medicine - diagnosis
of soft tissue lesions, 8th edn. Bailliere Tindall,
London
Daniels L, Worthingham C 1986 Muscle testing. techniques
of manual examination. 5th edn. W B Saunders,
Philadelphia, PA
Darling 0 W, Kraus S, Glashecn-Wray M B 1987 Relationship
of head posture and the rest position of the mandible.
Tenth International Congress of the World Confederation
for Physical Therapy: 203-206
Feinstein B, Langton J N K, Jameson R M, Schiller F 1954
Experiments on pain referred from deep somatic tissues.
Journal of Bone and Joint Surgery 36A(5): 981-997
Grieve G P 1994 Counterfeit clinical presentations.
Manipulative Physiotherapist 26: 17-19
Hylander W L 1979 An experimental analysis of
temporomandibular jOint reaction forces in macaques.
American Journal of Physical Anthropology 51: 433
• Warn the patient of possible exacerbation
up to 24-48 hours following the
examination.
• Request the patient to report details on the
behaviour of the symptoms following
examination at the next attendance.
• Explain the findings of the physical
examination and how these findings relate to
the subjective assessment. An attempt should
be made to clear up any misconceptions
patients Illay have regarding their i1lness or
injury.
• Evaluate the findings, formulate a clinical
diagnosis and write up a problem list.
Clinicians may find the management planning
forms shown in Figures 3.50 and 3.51 helpful
in guiding them through what is often a
complex clinical reasoning process.
• Determine the objectives of treatment.
• Devise an initial treatment plan.
Janda V 1994 Muscles and motor control in cervicogenic
disorders: assessment and management. In: Grant R (ed)
Physical therapy of the cervical and thoracic spine. 2nd
edn. Churchill Livingstone, Edinburgh, ch 10, p 195
Kendall F P, McCreary E K, Provance P G 1993 Muscles
testing and function, 4th edn. Williams & Wilkins,
Baltimore, MD
Kraus S 1993 Evaluation and management of
temporomandibular disorders. In: Saunders H 0,
Saunders R (eds) Evaluation, treatment and prevention of
musculoskeletal disorders vol I. Saunders, Minneapolis,
MN
Kraus S L 1994 Physical therap}' management ofTMD. ln:
Kraus S L (cd) Temporomandibular disorders, 2nd edn.
Churchill Livingstone, Edinburgh
Magee D J 1992 Orthopedic physical assessment. W B
Saunders, Philadelphia, PA
Maitland G D 1991 Peripheral manipulation, 3rd cdn.
Butterworths, London
Rocabado M 1983 Biomechanical relationship of the cranial,
cervical and hyoid regions. Journal of Craniomandibular
Practice 1 (3): 62--66
Sheehy K, Middleditch A, Wickham S 1990 Vertebral artery
testing in the cervical spine. Manipulative Physiotherapist
22(2), 15-18
Trott P H 1986 Examination of the temporomandibular joint.
In: Grieve G P (cd) Modern manual therapy of the
vertebral column. Churchill Livingstone, Edinburgh, ch 48,
p 521
Walton J H 1989 Essentials of neurOlogy, 6th eeln. Churchill
Livingstone, Edinburgh

















Figure 5.17 Cervical traction. The patient lies supine and
the clinician's forearm is placed under the patient's cervical
spine. The left hand grips the mandible and applies a gentle
traction force.
The position is held for at least 10 seconds; relief
of symptoms indicates a positive test, which
would indicate a mechanical joint problem.
SNAGs for restricted cervical rotation at C1-2.
The painful cervical spine movements are examCHAPTER
CONTENTS
Possible causes of pain and/or IImltstlon of
movement 1 Sl
Subjective examination 152
Body chart 152
Behaviour of symptoms 153
Special questions 154
History of the present condition (HPC) 154
Past medical history (PMH) 154
Social and family history 155
Pian of the physical examination 155
Physical examination 155
Observation 1 55
Joint tests 156
Muscle tests 160
Neurological tests 161
Special tests 162
Functional ability 163
Palpation 163
Passive accessory intervertebral movements
(PAIVMs) 163
Completion of the examination 166
Examination of the
cervicothoracic spine
POSSI BLE CAU S E S O F PAIN ANDIOR
LIMITATI ON O F MOVEM ENT
The cervicothoracic region is defined here as
the region between C3 and T4, and includes
the joints and their surrounding soft tissues.
• Trauma
Whiplash
Fracture of vertebral body, spinous or
transverse process
Ligamentous sprain
Muscular strain
• Degenerative conditions
Spondylosis - degeneration of intervertebral
disc
Arthrosis - degeneration of zygapophyseal
joints
• Inflammatory conditions
Rheumatoid arthritis
Ankylosing spondylitis
• Neoplasm
• Infection
• Cervical rib
• Torticollis
• Hypermobility syndrome
• Referral from the upper cervical spine
151
152 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Further details of the questions asked during the
subjective examination and the tests carried out
in the physical examination can be found in
Chapters 2 and 3 respectively.
The order of the subjective questioning and the
physical tests described below can be altered as
appropriate for the patient being examined.
SUBJ ECTIVE EXAMINATION
Body chart
The following information concerning the area
and type of current symptoms should be recorded
on a body chart (see Fig. 2.4).
Area of current symptoms
Be exact when mapping out the area of the symptoms.
Patients may have symptoms over a large
area. As well as symptoms over the cervical spine,
they may have symptoms over the head and face,
thoracic spine and upper limbs. Ascertain which is
the worst symptom and record where the patient
feels the symptoms are coming from.
Areas relevant to the region being examined
Clear all other areas relevant to the region being
examined, especially between areas of pain,
paraesthesia, stiffness or weakness. Mark these
unaffected areas with ticks (.f) on the body chart.
Check for symptoms in the head, temporomandibular
joint, thoracic spine, shoulder, elbow,
wrist and hand, and ascertain if the patient has
ever experienced any dizziness. This is relevant for
symptoms emanating from the cervical spine,
where vertebrobasilar insufficiency (VB!) may be
provoked. If dizziness is a feature described by the
patient, the clinician determines what factors
aggravate and what factors ease the symptoms,
the duration and severity of the dizziness and its
relationship with other symptoms such as disturbance
in vision, diplopia, nausea, ataxia, 'drop
attacks', impairment of trigeminal sensation, sympathoplegia,
dysarthria, hemianaesthesia and
hemiplegia (Bogduk 1994). In addition, the vertebral
artery tests must be carried out in the physical
examination (see below).
Quality of pain
Establish the quality of the pain. If the patient suffers
from as ociated headaches, consider carrying
out a full upper cervical spine examination (see
Ch. 5). Patients who have suffered a hyperextension
injury to the cervical spine may complain of
a sore throat, difficulty in swallowing and a feeling
of something stuck in their throat resulting
from an associated injury to the oesophagus
(Dahlberg et aI 1997).
Intensity of pain
The intensity of pain can be measured using, for
example, a visual analogue scale (V AS), as
shown in the examination chart at the end of this
chapter (Fig. 6.9). A pain diary may be useful for
patients with chronic neck pain with or without
headaches to determine the pain patterns and
triggering factors.
Depth of pain
Discover the patient's interpretation of the depth
of the pain.
Abnormal sensation
Check for any altered sensation locally in the cervical
spine and in other relevant areas such as the
upper limbs or face.
Constant or intermittent symptoms
Ascertain the frequency of the symptoms,
whether they are constant or intermittent. If
symptoms are constant, check whether there is
variation in the intensity of the symptoms, as
constant unremitting pain may be indicative of
neoplastic disease.
Relationship of symptoms
Determine the relationship between the symptomatic
areas - do they come together or separately?
For example, the pati􀅔nt could have shoulder
pain without cervical pain, or they may always
be present together.
Behaviour of symptoms
Aggravating factors
For each symptomatic area, discover what movements
and/or positions aggravate the patient's
symptoms, i.e. what brings them on (or makes
them worse), how long it takes to aggravate them
and what happens to other symptom(s) when
one symptom is produced (or is made worse).
These questions help to confirm the relationship
between the symptoms.
The clinician also asks the patient about theoretically
known aggravating factors for structures
that could be a source of the symptoms.
Common aggravating factors for the cervical
spine are cervical extension, cervical rotation and
sustained flexion. Aggravating factors for other
joints, which may need to be queried if any of
these joints is suspected to be a source of the
symptoms, are shown in Table 2.3.
Easing factors
For eacll symptomatic area, the clinician asks what
movements and/or positions ease the patient's
symptoms, how long it takes to ease them and
what happens to other symptom(s) when one
symptom is relieved. These questions help to
confirm the relationship between the symptoms.
The clinician asks the patient about theoretically
known easing factors for structures that could
be a source of the symptoms. For example, symptoms
from the cervical spine may be eased by
supporting the head or neck, whereas symptoms
arising from a cervical rib may be eased by
shoulder girdle elevation and/or depression.
The clinician should analyse the position or
movenlent that eases the symptoms in order to
help determine the structure at fault.
Severity and irritability of symptoms
Severity and irritability are used to identify
patients who will not be able to tolerate a full physical
examination. If the patient is able to sustain a
position that reproduces the symptoms then the
condition is considered non-severe and overpressures
can be applied in the physical examination. if
EXAMINATION OF THE CERVICOTHORACIC SPINE 153
the patient is unable to sustain the position then
the condition is considered severe and no overpressures
should be attempted.
[f symptoms ease immediately following provocation
then the condition is considered to be nonirritable
and all movements can be tested in the
physical examination. If the symptoms take a few
minutes to ease, then the symptoms are irritable
and only a few movements should be attempted to
avoid exacerbating the patient's symptoms.
Twenty-four hour behaviour of symptoms
The clinician determines the 24-hour behaviour
of symptoms by asking questions about night,
morning and evening symptoms.
Night symptoms. The following questions
should be asked:
• Do you have any difficulty getting to sleep?
• What position is most comfortable/
uncomfortable?
• What is your normal sleeping position?
• What is your present sleeping position?
• Do your symptom(s) wake you at night? If so,
- Which symptom(s)?
- How many times in the past week?
- How many times in a night?
- How long does it take to get back to sleep?
• How many and what type of pillows are
used?
• [s your mattress firm or soft?
• Has the mattress been changed recently?
Morning and evening symptoms. The clinician
determines the pattern of the symptoms first
thing in the morning, through the day and at the
end of the day. Stifh,ess in the morning for the
first few minutes might suggest cervical spondylosis;
stiffness and pain for a few hours is suggestive
of an inflammatory process such as
rheumatoid arthritis.
Function
The clinician ascertains how the symptoms vary
according to various daily activities, such as:
• Static and active postures, e.g. sitting,
standing, lying, washing, ironing, dusting,
154 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
driving, reading, writing, etc. Establish
whether the patient is left- or right-handed.
• Work, sport and social activities that may be
relevant to the cervicothoracic spine or other
related areas.
Detailed information about each of the above
activities is useful to help detennine the stnlcture
at fault and to identify clearly t1,e functional
restrictions. This information can be used to determine
the aims of treatment and any advice that
may be required. The most important functional
restrictions are highlighted with asterisks (*) and
reassessed at subsequent treatment sessions to
evaluate treatment intervention.
Stage of the condition
In order to determine the stage of the condition,
the clinician asks whether the symptoms are
getting better, getting worse or remaining
UllChanged.
Special questions
Special questions must always be asked as they
may identify certain precautions or absolute contraindications
to further examination and treatment
techniques (Table 2.4). As mentioned in
Chapter 2, the clinician must differentiate between
conditions that are suitable for conservative management
and systemic, neoplastic and other nonneuromusculoskeletal
conditions, which require
referral to a medical practitioner. The reader is
referred to Appendix 2 of Chapter 2 for details of
various serious pathological processes that can
mimic neuromusculoskeletal conditions (Grieve
1994).
The following information should be obtained
routinely for all patients.
General health. The clinician ascertains the
state of the patient's general health - find out if
the patient suffers any malaise, fatigue, fever,
nausea or vomiting, stress, anxiety or depression.
Weight loss. Has the patient noticed any recent
unexplained weight loss?
Rheumatoid arthritis. Has the patient (or a
member of his/her family) been diagnosed as
having rheumatoid arthritis?
Drug therapy. What drugs are being taken by
the patient? Has the patient ever been prescribed
long-term (6 months or more) medication or
steroid therapy? Has the patient been taking
anticoagulants recently?
X-rays and medical Imaging. Has the patient
been X-rayed or had any other medical tests
recently? Routine spinal X-rays are no longer
considered necessary prior to conservative treatment
as they only identify the normal age-related
degenerative changes, which do not necessarily
correlate with the patient's symptoms (Clinical
Standards Advisory Report 1994). The medical
tests may include blood tests, magnetic resonance
imaging, myelography, discography or a
bone scan. For further information on these tests,
the reader is referred to Refshauge & Gass (1995).
Neurological symptoms. Has the patient experienced
symptoms of spinal cord compression,
which are bilateral tingling in hands or feet
and/or disturbance of gait?
Dizziness. This has been explored previously in
the body chart section.
History of the present condition
(HPC)
For each symptomatic area, the dinician should
discover how long the symptom has been present,
whether there was a sudden or slow onset
and whether there was a known cause that provoked
the onset of the symptom. If the onset was
slow, the clinician should find out if there has
been any change in the patient's life-style, e.g. a
new job or hobby or a change in sporting activity,
that may have affected the stresses on the cervical
spine and related areas. To confirm the relationship
between the symptoms, the clinician
asks what happened to other symptoms when
each symptom began.
Past medical history (PMH)
The following information should be obtained
from the patient and/or the medical notes:
• The details of any relevant medical history,
particularly related to the cervical spine,
cranium and face.
• The history of any previous attacks: how
many episodes, when were they, what was the
cause, what was the duration of each episode
and did the patient fully recover between
episodes? If there have been no previous
attacks, has the patient had any episodes of
stiffness in the cervical or thoracic spine?
Check for a history of trauma or recurrent
minor trauma.
• Ascertain the results of any past treatment for
the same or similar problem. Past treatment
records may be obtained for further
information.
Social and family history
Social and family history that is relevant to the
onset and progression of the patien􀂺s problem
should be recorded. Examples of relevant information
might include the age of the patient, employment,
the home situation, any dependants and
details of any leisure activities. Factors from this
information may indicate direct and/or indirect
mechanical influences on the cervical spine. In
order to treat the patient appropriately, it is important
that the condition is managed within the context
of the patient's sodal and work environment.
Plan of the physical examination
When all this information has been collected, the
subjective examination is complete. It is useful at
this stage to highlight with asterisks (0), for ease
of reference, important findings and particularly
one or more functional restrictions. These can
then be re-examined at subsequent treatment
sessions to evaluate treatment intervention.
In order to plan the physical examination, the
following hypotheses need to be developed from
the subjective examination:
• The structures that must be examined as a
possible cause of the symptoms, e.g.
temporomandibular jOint, upper cervical
spine, cervical spine, thoracic spine,
acromioclavicular joint, sternoclavicular joint,
glenohumeral joint, elbow, wrist and hand,
soft tissues, muscles and neural tissues. Often,
EXAMINATION OF THE CERVICOTHORACIC SPINE 155
it is not possible to examine fully at the first
attendance and so examination of the
structures must be prioritized over the
subsequent treatment sessions.
• Other factors that need to be examined, e.g.
working and everyday postures, vertebral
artery, rnusc1e weakness.
• An assessment of the patient's condition in
terms of severity, irritability and nature (SIN):
- Severity of the condition: if severe, no
overpressures are applied
Irritability of the condition: if irritable,
fewer movements are carried out
- Nature of the condition: the physical
examination may require caution in certain
conditions such as vertebrobasilar
insufficiency, neurological involvement,
recent fracture, trauma, steroid therapy or
rheumatoid arthritis; there may also be
certain contraindications to further
examination and treatment, e.g. symptoms
of cord compression.
A physical planning form can be useful for
clinicians to help guide them through the clinical
reasoning process (see Figs 2.11 & 2.12).
PHYSICAL EXAMINATION
Throughout the physical examination the clinician
must aim to find physical tests that reproduce each
of the patien􀂻s symptoms. Each of these positive
tests is highlighted by an asterisk (0) and used to
determine the value of treatment intervention
within and between treatment sessions. The order
and detail of the physical tests described below
need to be appropriate to the patient being examined.
Some tests will be irrelevant, others will only
need to be carried out briefly while others will
need to be fuJly investigated.
Observation
Informal observation
The clinician should observe the patient in
dynamic and static situations; the quality of
movement is noted, as are the postural characteristics
and facial expression. lnformal observation
156 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
will have begun from the moment the clinician
begins the subjective examination and will continue
to the end of the physical examination.
Formal observation
Observation of posture. The clinician examines
the patient's spinal posture in sitting and standing,
noting the posture of the head and neck, thoracic
spine and upper limbs. The clinician
paSSively corrects any asymmetry to determine
its relevance to the patient's problem. A specific
posture relevant to the cervicothoracic spine is
the shoulder crossed syndrome Oanda 1994),
which has been described in Chapter 3.
It should be noted that pure postural dysfunction
rarely influences one region of the body in isolation
and it may be necessary to observe the
patient more fully for a full postural examination.
Observation of muscle form. The clinician
observes the muscle bulk and muscle tone of the
patient, comparing left and right sides. It must be
remembered that handedness and level and frequency
of physical activity may well produce
differences in muscle bulk between sides. Some
muscles are thought to shorten under stress,
while other muscles weaken, producing muscle
imbalance (Table 3.2). Patterns of muscle imbal-
Table 6.1 Possible muscle imbalance causing altered
poslure (Janda 1994)
Posture
Straight neck-shoulder line
(gothic-shaped shoulders) and
elevation of the shoulder girdle
Prominence of pectoralis major,
protraction of shoulder girdles
and Slight medial rotation of the
arms
Prominence of the insertion of
sternocleidomastoid and
forward head posture
Posture
Winging of the scapula
Flat or hollowed interscapular
space
Forward head pOSition
Muscle tightness
levator scapula and upper
trapezius
Pectoral muscles
Sternocleidomastoid
Muscle weakness
Serratus anterior
Rhomboids and middle
trapezius
Deep neck flexors
ance are thought to be the cause of the shoulder
crossed syndrome mentioned above, as well as
other abnormal postures outlined in Table 6.1.
Observation of soft tissues. The clinician
observes the quality and colour of the patient's
skin and any area of swelling or presence of scarring,
and takes cues for further examination.
Observation of the patient's attitudes and feelIngs.
The age, gender and ethnicity of patients
and their cultural, occupational and social backgrounds
will all affect their attitudes and feelings
towards themselves, their condition and the clinician.
The clinician needs to be aware of and sensitive
to these attitudes, and to empathize and
communicate appropriately so as to develop a
rapport with the patient and thereby enhance the
patient's compliance with the treatment.
Joint tests
Joint tests include integrity tests and active and
passive physiological movements of the cervical
spine and other relevant joints. Passive accessory
movements complete the joint tests and are
described towards the end of the physical examination.
Joint integrity tests
Joint integrity tests for CO-<:l and Cl-2 are
described in the chapter on examination of the
upper cervical spine. There are no joint integrity
tests for the lower cervical spine.
Active and passive physiological joint movement
For both active and passive physiological joint
movement, the clinician should note the following:
• The quality of movement
• The range of movement
• The behaviour of pain through the range of
movement
• The resistance through the range of movement
and at the end of the range of movement
• Any provocation of muscle spasm.
A movement diagram can be used to depict
this information.
EXAMINATION OF THE CERVICOTHORACIC SPINE 157
A
C D
E F
Figure 6.1 Overpressures to the cervical spine. A Flexion. The left hand stabilizes the trunk while the right hand moves the
head down so that the chin moves towards the chest.
B Extension. The left hand rests over the head to the forehead while the right hand holds over the mandible. Both hands then
apply a force to cause the head and neck to extend backwards.
C Lateraillexion. Both hands rest over the patient's head around the ears and apply a force to cause the head and neck to tilt
laterally.
o Rotation. The left hand ties over the zygomatic arch while the right hand rests over the occiput. 80th hands then apply
pressure to cause the head and neck to rotate.
E Left quadrant. This is a combination of extension, left rotation and left lateral flexion. The patient actively extends and, as soon
as the movement is complete, the clinician passively moves the head into left rotation by applying gentle pressure over the right
zygomatic arch. Lateraillexion overpressure is then added by applying a downward force through the zygomatic arch. The trunk
is stabilized by the right hand over the left scapula region.
F Compression. The hands rest over the top of the patient's head and apply a downward force.
158 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
G
Figure 6.1 (cont'd)
G Distraction. The left hand holds underneath the mandible
while the right hand grasps underneath the occiput. Both
hands then apply a force to lift the head upwards.
Active physiological joint movement with overpressure.
The active moven-tents with overpressure
listed below and shown in Figure 6.1
are tested with the patient in sitting.
The clinician establishes the patient's symptoms
at rest and prior to each movement, and
corrects any movement deviation to determine
its relevance to the patient's symptoms.
For the cervical spine, the following should be
tested:
• Flexion
• Extension
• L lateral flexion
• R lateral flexion
• L rotation
• R rotation
• L quadrant
• R quadrant
• Compression
• Distraction
• Upper cervical extension/protraction (pro)
• Repetitive protraction (rep pro)
• Repetitive flexion (rep flex)
• Upper cervical flexion/retraction (ret)
• Repetitive retraction (rep ret)
• Repetitive retraction and extension (rep ext)
• L repetitive lateral flexion (rep lat flex)
• R repetitive lateral flexion (rep lat flex)
• L repetitive rotation (rep rot)
• R repetitive rotation (rep rot)
• Retraction and extension lying supine
• Repetitive retraction and extension lying
supine
• Static (maximum of 3 min) retraction and
extension lying supine or prone.
Note that the position in which the retraction
and extension movement is performed will alter
the effect on the cervical spine. When it is carried
out in sitting, there will be a compression force
on the spine because of the weight of the head
and neck, whereas in supine lie there will be a
traction force applied to the cervical spine.
If all movements are full and symptom-free on
overpressure and symptoms are aggravated by
certain postures, the condition is categorized as a
postural syndrome. McKenzie (1990) suggests
that maintaining certain postures that place some
structures under prolonged stress will eventually
produce symptoms.
Modifications to the examination of active physiological
movements. For further information
about active range of movement, the following
can be carried out:
• The movement can be repeated several times:
- If on repeated movements there is no
change in area of symptoms then the
condition is categorized as a dysfunction
syndrome (McKenzie 1990)
- If on repeated movements,
peripheralization and centralization
syndrome is manifested then this is
characterized as a derangement syndrome;
there are seven types of derangement
syndromes described (Table 6.2)
• The speed of the movement can be altered
• Movements can be combined (Edwards 1980,
1985, 1999). Any number of positions can be
u ed; those described by Edwards are:
Flexion then rotation
Extension then rotation
- Flexion then lateral flexion (Fig. 6.2)
- Extension then lateral flexion
• Compression or distraction can be added
• Movements can be sustained
• The injuring movement, i.e. the movement that
occurred at the time of the injury, can be tested
• Differentiation tests.
Table 6.2 Derangement syndromes of the cervical spine
(McKenzie 1990)
Derangement Clinical presentation
2
3
4
5
6
7
Central or symmetrical pain around C5-7
Rarely scapula or shoulder pain
No deformity
Extension limited
Rapidly reversible
Central or symmetrical pain around C5-7
With or without scapula, shoulder or upper
arm pain
Kyphotic deformity
Extension limited
Rarely rapidly reversible
Unilateral or asymmetrical pain around C3-7
With or without scapula, shoulder or upper
arm pain
No deformity
Extension, rotation and lateral flexion may be
individually or collectively limited
Rapidly reversible
Unilateral or asymmetrical pain around C5-7
With or without scapula, shoulder or upper
arm pain
With deformity of torticollis
Extension, rotation and lateral lIexion limited
Rapidly reversible
Unilateral or asymmetrical pain around C5-7
With or without scapula or shoulder pain and
with arm symptoms distal to the elbow
No deformity
Extension and ipsilaleral lateral flexion
limited
Rapidly reversible
Unilateral or asymmetrical pain around C5-7
With arm symptoms distal to the elbow with
deformity - cervical kyphosis or torticollis
Extension and ipsilateral lateral flexion
limited
With neurological motor deficit
Not rapidly reversible
Symmetrical or asymmetrical pain around
C
With or without anterior/anterolateral neck
pain
Dysphagia common
No deformity
Flexion limited
Rapidly reversible
umerous differentiation tests (Maitland
1986) can be performed; the choice depends on
the patient's signs and symptoms. For example,
when turning the head around to the left reproduces
the patient's left-sided infrascapular pain,
differentiation between the cervical and thoracic
spine may be required. The clinician can increase
and decrease the rotation at the cervical and tho-
EXAMINATION OF THE CERVICOTHORACIC SPINE 159
Figure 6.2 Combined movement to the cervical spine. The
right hand supports the trunk while the left hand moves the
head into flexion and then lateral flexion.
racic regions to find out what effect this has on
the infrascapular pain. The patient turns the
head and trunk around to the left; the clinician
maintains the position of the cervical spine and
derotates the thoracic spine, noting the pain
response. If symptoms remain the same or
increase, the clinician confirms that the cervical
spine is the source of symptoms by increasing
the overpressure to the cervical spine, which
should increase symptoms.
nle position of cervical and thoracic rotation is
then resumed and this time the clinkian maintains
the position of the thoracic spine and derotates the
cervical spine, noting the pain response. If the
symptoms remain the same or increase, the clinician
confirms that the thoracic spine is the source
of symptoms by increasing the overpressure to the
thoracic spine, whicl, should increase symptoms.
Capsular pattern. The capsular pattern (Cyriax
1982) for the cervical spine is as follows: lateral
flexion and rotation are equally limited, flexion is
full but painful and extension is limited.
Passive physiological joint movement. This can
take the form of passive physiological intervertebral
movements (PPIVMs), which examine the
movement at each segmental level. PPIVMs can
be a useful adjunct to passive accessory jntervertebral
movements (PAIVMs) to identify segmental
hypomobility and hypermobility. With the
160 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 6.3 Rotation PPIVM at the C4/5 segmental level.
The clinician places the index finger, reinforced by the middle
linger, over the left C4/S zygapophyseal joint and feels the
opening up at this level as the head is passively rotated to
the right.
patient supine, the e1inician palpates the gap
between adjacent spinous processes and articular
pillars to feel the range of intervertebral movement
during flexion, extension, lateral flexion
and rotation. Figure 6.3 demonstrates a rotation
PPIVM at the C4/5 segmental level.
Other joints
Other joints apart from the cervical spine need to
be examined to prove or disprove their relevance
to the patien􀅓s condition. The joints most likely
to be a source of symptoms are the temporomandibular
joint, shoulder girdle, glenohumeral
joint, elbow jOint, wrist and hand. These joints
can be tested fully (see relevant e1lapter) or, if
Table 6.3 Clearing tests
Joint Physiological movement
Rotation and quadrants
they are not suspected to be a source of symptoms,
the relevant clearing tests can be lIsed
(Table 6.3).
Muscle tests
Muscle tests include examining muscle strength,
control, length and isometric muscle contraction.
Muscle strength
TI1e clinician tests the cervical flexors, extensors,
lateral flexors and rotators and any other relevant
muscle groups. For details of these general tests
the reader is directed to Daniels & Worthingham
(1986), Cole et al (1988) or Kendall et al (1 993).
Greater detail may be required to test the
strength of individual muscles, in particular
those muscles prone to become weak (Janda
1994), which include serratus anterior, subscapularis,
middle and lower fibres of trapezius and
the deep neck flexors. Testing the strength of
these muscles is described in Chapter 3.
Muscle control
The relative strength of muscles is considered
more important than the overall strength of a
muscle group (Janda 1994). Relative strength is
assessed indirectly by observing posture, as
already mentioned, by the quality of active
movement, noting any changes in muscle
recruitment patterns, and by palpating muscle
activity in various positions.
Accessory movement
Thoracic spine All movements
Temporomandibular joint Open/close jaw, side to side movement, protraction!
retraction
Posteroanterior glide and medial
glide
Shoulder girdle
Shoulder joint
Acromioclavicular joint
Sternoclavicular joint
Elbow joint
Wrist joint
Thumb
Fingers
Elevation, depression, protraction and retraction
Flexion and hand behind back
AU movements
All movements
Extension, extension/abduction, extension/adduction
and pronation/supination
Flexion/extension and radiaVulnar deviation
Extension carpometacarpal and thumb opposition
Flexion at interphalangeal joints and grip
Weak deep neck flexors have been found to be
associated with cervicogenic headaches (Watson
1994). These muscles are tested by the clinician
observing the pattern of movement that occurs
when the patient flexes his/her head from a
supine position. When the deep neck flexors are
weak, the sternocleidomastoid initiates the
movement, causing the jaw to lead the movement,
and the upper cervical spine hyperextends.
After about 1 0° of head elevation, the
cervical spine then curls up into flexion. A pressure
biofeedback unit (PBU, Chattanooga,
Australia) can be used to measure the function of
the deep neck nexors more objectively OuIl 1994).
The patient lies supine with a towel under the
head to position the cervical spine in neutral. The
PBU is placed under the cervical spine and
inflated to around 20 mmHg (Fig. 5.10). The
patient then is asked to tuck in the chin, which
should increase the pressure in the normal by
&-10 mmHg. ormal function of the deep neck
flexors is the ability to hold this contraction for 1 0
seconds and repeat the contraction 10 times Oull,
personal communication, 1999).
Muscle imbalance around the scapula has been
described by a number of workers Oull & Janda
1 987, Janda 1994) and can be assessed by observation
of upper limb movements. For example
the clinician can observe the patient performing
a slow push-up from the prone position. Any
excessive or abnormal movement of the scapula
is noted; muscle weakness may cause the scapula
to rotate and glide laterally and/or move superiorly.
Serratus anterior weakness, for example,
will cause the scapula to wing (the medial border
moves away from the thorax). Another movement
that can be useful to analyse is shoulder
abduction performed slowly, with the patient in
sitting and the elbow flexed. Once again, the clinician
observes the quality of movement of the
shoulder jOint and scapula and notes any abnormal
or excessive movement.
Muscle length
The clinician tests the length of individual muscles,
in particular those muscles prone to become
short Oanda 1994), i.e. the levator scapula, upper
EXAMINATION OF THE CERVICOTHORACIC SPINE 161
trapezius, sternocleidomastoid, pectoralis major
and minor, scalenes and the deep occipital muscles.
Testing the length of these muscles is
described in Chapter 3.
Isometric muscle testing
Test neck flexors, extensors, lateral flexors and
rotators in resting position and, if indicated, in
different parts of the physiological range. In
addition the clinician observes the quality of the
muscle contraction to hold this position (this can
be done with the patient's eyes shut). The patient
may, for example, be unable to prevent the joint
from moving or may hold with excessive muscle
activity; either of these circumstances would suggest
a neuromuscular dysfunction.
Neurological tests
Neurological examination involves examining the
integrity of the nervous system, the mobility of the
nervous system and specific diagnostic tests.
Integrity of nervous system
As a general rule, a neurological examination is
indicated if symptoms are felt below the
acromion.
Dermatomes/peripheral nerves. Light touch and
pain sensation of the upper limb are tested using
cotton wool and pinprick respectively, as
described in Chapter 3. A knowledge of the cutaneous
distribution of nerve roots (dermatomes)
and peripheral nerves enables the clinician to
distinguish the sensory loss due to a root lesion
from that due to a peripheral nerve lesion. The
cutaneous nerve distribution and dermatome
areas are shown in Figures 3.18-3.20.
Myotomes/peripheral nerves. The following
myotomes are tested and are shown in Figure
3.26:
• C4 - shoulder girdle elevation
• C5 - shoulder abduction
• C6 - elbow flexion
• C7 - elbow extension
• C8 - thumb extension
• T 1 - finger adduction.
162 NEUAOMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
A working knowledge of the muscular distribution
of nerve roots (myotomes) and peripheral
nerves enables the clinician to distinguish the
motor loss due to a root lesion from that due to a
peripheral nerve lesion. The peripheral nerve
distributions are shown in Figures 3.23 and 3.24.
Reflex testing. The following deep tendon
reflexes are tested (see also Fig. 3.28):
• C5-6 - biceps
• C7 - triceps and brachioradialis.
Mobility of the nervous system
The following neurodynamic tests may be carried
out in order to ascertain the degree to which
neural tissue is responSible for the production of
the patient's symptom(s):
• Passive neck flexion (PNF)
• Upper limb tension tests (UL TT)
• Straight leg raise (SLR)
• Slump.
These tests are described in detail in Chapter 3.
Other neural diagnostic tests
Plantar response to test for an upper motor neurone
lesion (Walton 1989). Pressure applied from
the heel along the lateral border of the plantar
aspect of the foot produces flexion of the toes in
the normal. Extension of the big toe with downward
fanning of the other toes occurs with an
upper motor neurone lesion.
Table 6.4 Vertebral artery lest (Grant 1994)
Patient does not complain of symptoms related to VBI and
manipulation is the choice of treatment
In sitting or lying:
• Sustained extension
• Sustained L rota lion
• Sustained R rotation
• Sustained L rotation/extension
• Sustained R rotation/extension
• Pre-manipulation position
Tinel's sign. TI,e clinician taps the skin overlying
the brachial plexus. Reproduction of distal painl
paraesthesia denotes a positive test indicating
regeneration of an injured sensory nerve (Walton
1989).
Special tests
In the case of the cervicothoracic spine, the special
tests are vascular tests.
Vertebral artery test (Grant 1994). There are two
sets of tests: one for patients who do not complain
of any dizziness or other symptoms related
to vertebrobasilar insufficiency (VBI), for whom
manipulation is the choice of treatment; and
another for patients who do have symptoms of
VBI. These tests are outlined in Table 6.4.
For all tests, the movements are active and each
position is maintained by the clinician giving gentle
overpressure for a minimum of 10 seconds. The
movement is then released for 10 seconds before
the next movement is carried out. II dizziness,
nausea or any other symptom associated with vertebrobasilar
insufficiency (disturbance in vision,
diplopia, nausea, ataxia, 'drop attacks', impairment
of trigeminal sensation, sympathoplegia,
dysarthria, hemianaesthesia and hemiplegia)
(Bogduk 1994) is provoked during any part of the
test, it is considered positive and testing should be
stopped immediately. If the test is positive, this
contraindicates manipulation of the cervical spine.
Differentiation between dizziness produced
from the vestibular apparatus of the inner ear and
that from the neck movement (due to cervical ver-
Patient complains of symptoms related 10 VBI
In sitting:
• Sustained extension
• Sustained L rotation
• Sustained R rotation
• Sustained L rotation/extension
• Sustained R rotation/extension
• Rapid movements
• Sustained movements (more than 105)
• Any other movement
tigo or compromised vertebral artery) may be
required. In standing, the clinician maintains head
position while the patient moves the trunk to produce
cervical rotation. This position is held for at
least 10 seconds. The patient then repeats this
movement in the opposite direction. The test is
considered positive and stopped immediately if
dizziness, nausea or any other symptom associated
with vertebrobasilar insufficiency is provoked,
which suggests that the patienrs symptoms are
not caused by a disturbance of the vestibular system.
A positive vertebral artery test contraindicates
certain treatment techniques to the cervical
spine (Table 2.4).
Palpation 01 pulses. If the circulation is suspected
of being compromised, the clinician palpates the
pulses of the carotid, facial and temporal arteries.
Test lor thoracic outlet syndrome. There are
several tests for this syndrome, which are
described in Chapter 8.
Functional ability
Some functional ability has already been tested by
the general observation of the patient during the
subjective and physical examinations, e.g. the postures
adopted during the subjective examination
and the ease or difficulty of w1dressing prior to the
examination. Any further functional testing can be
carried out at this point in the examination and
may include sitting postures, aggravating movements
of the upper limb, etc. Clues for appropriate
tests can be obtained from the subjective examination
findings, particularly aggravating factors.
Palpation
The clinician palpates the cervicothoracic spine
and, if appropriate, the patienrs upper cervical
spine, lower thoracic spine and any other relevant
areas. It is useful to record palpation findings on a
body chart (see Fig. 2.4) and/or palpation chart
(Fig. 3.37).
The clinician should note the following:
• The temperature of the area
• Localized increased skin moisture
• The presence of oedema or effusion
EXAMINATION OF THE CERVICOTHORACIC SPINE 163
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules
• The presence or elicitation of any muscle
spasm
• Tenderness of bone, ligaments, muscle,
tendon, tendon sheath, trigger points (shown
in Figure 3.38) and nerve; palpable nerves in
the upper limb are as follows:
- The suprascapular nerve can be palpated
along the superior border of the scapula in
the suprascapular notch
- The brachial plexus can be palpated in
the posterior triangle of the neck; it
emerges at the lower third of
sternocleidomastoid
- The suprascapular nerve can be palpated
along the superior border of the scapula in
the suprascapular notch
- The dorsal scapular nerve can be palpated
medial to the medial border of the
scapula
- The median nerve can be palpated over the
anterior elbow joint crease, medial to the
biceps tendon, also at the wrist between
palmaris longus and flexor carpi
radialis
- The radial nerve can be palpated around
the spiral groove of the humerus, between
brachioradialis and flexor carpi radialis, in
the forearm and also at the wrist in the
snuff box
• Increased or decreased prominence of bones
• Pain provoked or reduced on palpation.
Passive accessory intervertebral
movements ( PAIVMs)
It is useful to use the palpation chart and movement
diagrams (or joint pictures) to record findings.
These are explained in detail in Chapter 3.
The clinician should note the following:
• The quality of movement
• The range of movement
• The resistance through the range and at the
end of the range of movement
• The behaviour of pain through the range
• Any provocation of muscle spasm.
C
164 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Cervical and upper thoracic spine (C2-T4)
accessory movements
TIle cervical and upper thoracic spine accessory
movements (Fig. 6.4) are as follows (Maitland
1986):
! central posteroanterior
unilateral posteroanterior
transverse
L..J unilateral anteroposterior for C2-T1 .
Accessory movements to the rib cage
Accessory movements to the rib cage (ribs 1-4)
(Maitland 1991) are as follows (see Fig. 7.8):
calid longitudinal caudad 1 st rib
anteroposterior
posteroanterior
med medial glide.
A
For further information when examining the
accessory movements alter the:
• Speed of force application
• Direction of applied force
• Point of application of the applied force
• Position of the joint. In lying the cervical spine
can be placed in a variety of resting positions;
commonly the spine is positioned in one of the
following:
- Flexion
- Extension
- Lateral flexion (Fig. 6.5)
- Flexion and rotation
- Flexion and lateral flexion
- Extension and rotation
- Extension and lateral flexion.
These positions are thought to increase and
decrease the compressive and stretch effect at the
intervertebral joints (Edwards 1980, 1985, 1999).
B
D
Figure 6.4 Cervical accessory movements. A Central posteroanterior. Thumb pressure is applied to the spinous process.
B Unilateral posteroanterior. Thumb pressure is applied to the articular piUar. C Transverse. Thumb pressure is applied to the
lateral aspect of a spinous process. 0 Unilateral anteroposterior. In the supine position, thumb pressure is applied to the
anterior aspect of the transverse process.
Figure 6.5 Palpation of accessory movements using a
combined movement. Thumb pressure over the left articular
pillar of C5 is carried out with the cervical spine positioned in
right lateral flexion.
Figure 6.6 Unilateral NAG on e6. Thumb pressure is
applied to the right articular pillar of C6 (in the line of the facet
joint plane) as the patient laterally flexes to the left.
Following accessory movements, the clinician
reassesses all the asterisks (movements or tests
that have been found to reproduce the patient's
symptoms) in order to establish the effect of the
accessory movements on the patient's signs and
symptoms. This helps to prove/disprove structure(
s) at fault.
Other joints as applicable
Accessory movements can then be tested for other
joints suspected to be a source of symptoms, and
by reassessing the asterisks the clinician is then
EXAMINATION OF THE CERVICOTHORACIC SPINE 165
able to prove/disprove the structure(s) at fault.
Joints likely to be examined are the upper cervical
spine, lower thoracic spine, shoulder region,
elbow region, wrist and hand.
Natural apophyseal glides (NAGs)
These can be applied to the apophyseal joints
between C2 and T3. The patient sits and the clinician
supports the patient's head and neck and
applies a static or oscillatory force to the spinous
process or articular pillar in the direction of the
facet joint plane of each vertebra (Mulligan 1995).
Figure 6.6 demonstrates a unilateral NAG on C6.
This is repeated six to 10 times. The patient
should feel no pain, but may feel slight discomfort.
The technique aims to facilitate the glide of
the inferior facet of the vertebra upwards and
forwards on the vertebra below. In the example
given, if the C6 NAG on the right reduces pain
on left lateral flexion it suggests the symptomatic
joint is the right C6-7 apophyseal joint.
Reversed natural apophyseal glides (reverse
NAGs)
The patient sits and the clinician supports the
head and neck and appljes a force to the articular
Figure 6.7 Reversed flexion NAG to C4. The lett hand
supports the head and neck. The index and thumb of the
fisted right hand apply an anterior force to the articular pillars
of C4 in the direction of the facet plane.
168 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 6.8 Extension SNAG to CS. Thumb pressure is
applied to the spinous process of C5, in the direction of the
facet plane, as the patient slowly extends.
pillars of a vertebra using the index and thumb of a
fisted hand (Fig. 6.7). A force is then applied to the
pillars in the direction of the facet plane in order to
facilitate the glide of the superior facet upwards
and forwards on the inferior facet of the vertebra
above. If a reversed NAG to C4 reduces the
patient's pain on extension, for example, this
would suggest that the symptomatic level is C3-4.
Sustained natural apophyseal glides (SNAGs)
The painful cervical spine movements are examined
in sitting. The clinician applies a force to the
spinous process and / or transverse process in the
direction of the facet jOint plane of each cervical
vertebra as the patient moves slowly towards the
pain. All cervical movements can be tested in this
way. Figure 6.8 demonstrates a C5 extension
SNAG. The technique aims to facilitate the glide
of the inferior facet of the vertebra upwards and
forwards on the vertebra below. In the above
example, if the C5 SNAG reduces the pain it suggests
that the symptomatic level is C5-6. For further
details on these techniques, see Chapter 3
and Mulligan ( 1 995).
COMPLETION O F THE EXAMINATION
Having carried out the above tests, the examination
of the cervical spine is now complete. The
subjective and physical examinations produce a
large amount of information, which needs to be
recorded accurately and quickly. An outline
examination chart may be useful for some clinicians
and one is suggested in Figure 6.9. It is
important, however, that the clinician does not
examine in a rigid manner, simply following the
suggested sequence outlined in the chart. Each
patient presents differently and this should be
reRected in the examination process. It is vital at
this stage to highlight with an asterisk (.) important
findings from the examination. These
findings must be reassessed at, and within, subsequent
treatment sessions to evaluate the effects
of treatment on the patient's condition.
On completion of the physical examination the
clinician should:
• Warn the patient of possible exacerbation
up to 24-48 hours following the
examination.
• Request the patient to report details on the
behaviour of the symptoms following
examination at the next attendance.
• Explain the findings of the physical
examination and how these findings relate to
the subjective assessment. An attempt should
be made to clear up any misconceptions
patients may have regarding their illness or
injury.
• Evaluate the findings, formulate a clinical
diagnosis and write up a problem list.
Clinicians may find the management planning
forms shown in Figures 3.51 and 3.52 helpful
in guiding them through what is often a
complex clinical reasoning process.
• Determine the objectives of treatment.
• Devise an initial treatment plan.
Subjective examination
Body chart
􀀂
- -
.. ""
􀀃
Relationship of symptoms
Aggravating factors
/j
Severe Irnlable
Easmg factors
I
No pain
-.
v
-� 􀀄
"-
Figure 6.9 CervlcothoraClc spine examination chart.
EXAMINATION OF THE CERVICOTHORACIC SPINE 167
Name
Age
Date
24 hour behavIour
Function
ImprOVing Static Worsenmg
Special Questions
General health
Weight loss
RA
Drugs
Steroids
Anticoagulants
X-ray
Cord symptoms
Dlzzmess
HPC
PMH
SH 1\ FH
I
Pain as bad as It
Intenslry of pain could possIbly be
168 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Physical examination Muscle length
Observation
Isometric muscle tests
Joint rests
Active and passive Jomt movement
Flexion
Rep flexion
Protraction
Rep protraction Neurologlea/ cests
Extension lntegfilY of the nervous system
Rep extension
Retraction
Rep retraction
lat flexion l
lat flexion R Mobility of the nervous system
Rep lat flex L
Rep lat flex A
RotatIOn L
Rotation R
Rep rotation L DiagnostiC tests
Rep rotation A (plantar response,Tlnel's Sign)
Quadrant l
Quadrant A
Compression Specla/ ceses
Distraction (vertebral artery, pulses, thoraCIC
Ret/ext supine outlet tests)
Rep ret/ext supme
Sustained ret/ext supme
Function
Combined movementS
Palpation
Capsular pattern Ves No
Accessory movements
PPIVMs
Other Jomts
Other JOints
NAGS
Muscle tests
Muscle strength SNAGS
Muscle control
Figure 6.9 (cont'd)
REFERENCES
Bogduk N 1994 Cervical causes of headache and dizziness.
In: Boyling J 0, Palastanga N (eels) Grieve's modern
manual therapy, 2nd ron. Churchill Livingstone,
Edinburgh, eh 22, p 317
Clinical Standards Advisory Report 1994 Report of a CSAG
committee on back pain. HMSO, London
Cole J H, Furness A L, Twomey L T 1988 Muscles in action,
an approach to manual muscle testing. Churchill
Livingstone, Edinburgh
Cyriax J 1982 Textbook of orthopaedic medicine - diagnosis
of soft tissue lesions, 8th ron. BailliE􀃃re Tindall,
London
Dahlberg C, Lanig I S, Kenna M, Long 5 1997 Diagnosis and
treatment of esophageal perforations in cervical spinal
cord injury. Topics in Spinal Cord Injury Rehabilitation
2(3), 41-48
Daniels L, Worlhingham C 1986 Muscle testing, techniques
of manual examination, 5th edn. W B Saunders,
Philadelphia. PA
Edwards B C 1980 Combined movements in the cervical
spine (C2-7): their value in examination and technique
choice. Australian Journal of Physiotherapy 26(5):
1 65-169
Edwards B C 1985 Combined movements in the cervical
spine (their use in establishing movement patterns). in:
Glasgow E F, Twomey L T, Scull E R, Kleynhans A M,
Idczak R M (cds) Aspects of manipulative therapy.
Churchill Livingstone, Melbourne, ch 19, p 128
Edwards B C '1999 Manual of combined movements: their
use in the examination and treatment of mechanical
vertebral column disorders, 2nd edn. Butterworth·
Heinemann, Oxford
Grant R 1994 Vertebral artery concerns: pre·manipulative
testing of the cervical spine. In: Grant R (ed) Physical
therapy of the cervical and thoracic spine, 2nd eeln.
Churchill Livingstone, New York, ch 8, p 145
EXAMINATION OF THE CERVICOTHORACIC SPINE 189
Grieve G I' 1994 Counterfeit clinical presentations.
Manipulative Physiotherapist 26: 1 7-19
Janda V 1994 Muscles and motor control in cervicogenic
disorders: assessment and management. In: Grant R (ed)
Physical therapy of the cervical and thoracic spine, 2nd
edn. Churchill liVingstone, New York, ch 10, p 195
Jull G A 1994 Headaches of cervical origin. In: Grant R (ed)
Physical therapy of the cervical and thoracic spine,
2nd eeln. Churchill Livingstone, New York, ch 13,
P 261
Jull G A, Janda V 1987 Muscles and motor control in low
back pain: assessment and management. In: Twomey L T,
Taylor J R (eds) PhYSical therapy of the low back.
Churchill Livingstone, New York, ch 10, p 253
Kendall F P, McCreary E K, Provance P G 1993 Muscles
testing and function, 4th edn. Williams & Wilkins,
Baltimore, MD
McKenzie R A 1990 The cervical and thoracic spine:
mechanical diagnosis and therapy. Spinal Publications,
New Zealand
Maitland G 0 1986 Vertebral manipulation, 5th edn.
Butterworths, London
Maitland G 0 1991 Peripheral manipulation, 3rd edn.
Butterworths, London
Mulligan B R 1995 Manual therapy 'nags', 'snags', 'MWMs'
etc., 3rd edn. Plant View Services, New Zealand
Refshauge K, Gass E (cds) 1995 Musculoskeletal
physiotherapy clinical science and practice. Butterworth
Heinemann, Oxford
Walton J H 1989 Essentials of neurology, 6th edn. Churchill
Livingstone, Edinburgh
Watson D H 1994 Cervical headache: an investigation of
natural head posture and upper cervical flexor muscle
performance. In: Beyling J 0, Palastanga N (eds) Grieve's
modern manual therapy, 2nd edn. Churchill Livingstone,
Edinburgh, ch 24, P 349
CHAPTER CONTENTS
Possible causes of pain and/or limitation of
movement 171
Subjective examination 172
Body chart 172
Behaviour of symptoms 173
Special questions 174
History of the present condition (HPC) 174
Past medical history (PM H) t 75
Social and family history 175
Plan of the physical examination 175
Physical examination 175
Observation t 76
Joint tests 176
Muscle tests 180
Neurological tests 181
Speciallests 182
Functional ability 182
Palpation 182
Passive accessory intervertebral movements
(PAIVMs) 182
Completion of the examination 1 84
Examination of the
thoracic spine
POSSIBLE CAUSES OF PAIN AN DIOR
LI MITATION OF MOVEMENT
• Trauma
- Fracture of spinous process, transverse
process, vertebral arch or vertebral body;
fracture dislocation
- Ligamentous sprain
- Muscular strain
• Degenerative conditions
- Spondylosis - degeneration of the
intervertebral disc
- Arthrosis - degeneration of the
zygapophyseal joints
- Scheuermann's disease
• Inflammatory - ankylosing spondylitis
• Metabolic
- Osteoporosis
- Paget's disease
- Osteomalacia
• Infections
- Tuberculosis of the spine
• Tumours, benign and malignant
• Syndromes
- T4 syndrome
- Thoracic outlet syndrome
1 7 1
172 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• Postural thoracic pain
• Referral of symptoms from the cervical or
lumbar spine or from the viscera (such as
the gall bladder, heart, spleen, lung and
pleura)
The thoracic spine examination is appropriate for
patients with symptoms in the spine or thorax
between T3 and no. This region includes the
intervertebral joints between T3 and T10 as
well as the costovertebral, costotransverse,
sternocostal, costochondral and interchondral
joints with their surrounding soft tissues.
To test the upper thoracic spine above T4, it is
more appropriate to carry out an adapted cervical
spine examination. Similarly, to test the lower
thoracic spine below T9, it is more appropriate to
carry out an adapted lumbar spine examination.
Further details of the questions asked during
the subjective examination and the tests carried
out in the physical examination can be found in
Chapters 2 and 3 respectively.
The order of the subjective questioning and the
physical tests described below can be altered as
appropriate for the patient being examined.
SUBJECTIVE EXAMINATION
Body chart
The following information concerning the type
and area of current symptoms should be recorded
on a body chart (see Fig. 2.4).
Area of current symptoms
Be exact when mapping out the area of the symptoms.
The area of symptoms may follow the
course of a rib or it may run horizontally across
the chest; symptoms may be felt posteriorly over
the thoracic spine and anteriorly over the sternum.
The clinician should be aware that the cervical
spine (between C3 and C7), intervertebral
discs and their surrounding ligaments can refer
pain to the scapula and upper arm (Cloward
1959). The upper thoracic spine can refer symptoms
to the upper limbs, and the lower thoracic
spine to the lower limbs. Ascertain which is the
worst symptom and record where the patient
feels the symptoms are coming from.
Areas relevant to the region being examined
Clear all other areas relevant to the region being
examined, especially between areas of pain,
paraesthesia, stiffness or weakness. Mark these
unaffected areas with ticks (,f) on the body chart.
Check for symptoms in the cervical spine and
upper limbs if it is an upper thoracic problem, or
in the lumbar spine and lower limbs if it is a
lower thoracic problem. If the patient has symptoms
that may emanate from the cervical spine,
ask whether there is any dizziness. Further questions
about dizziness and testing for vertebrobasilar
insufficiency are more fully described
in Chapter 6.
Quality of pain
Establish the quality of the pain.
Intensity of pain
The intensity of pain can be measured using, for
example, a visual analogue scale (V AS) as shown
in the examination chart at the end of this chapter
(Fig. 7.12). A pain diary may be useful for
patients with chronic thoracic pain to determine
the pain patterns and triggering factors over a
period of time.
Depth of pain
Discover the patient's interpretation of the depth
of the pain.
Abnormal sensation
Check for any altered sensation over the thoracic
spine, rib cage and other relevant areas.
Constant or intermittent symptoms
Ascertain the frequency of the symptoms, whether
they are constant or intermittent. If symptoms are
constant, check whether there is variation in the
intensity of the symptoms, as constant unremitting
pain may be indicative of neoplastic disease.
Relationship of symptoms
Determine the relationship between the symptomatic
areas - do they come together or separately?
For example, the patient could have shoulder
pain without thoracic spine pain, or they may
always be present together.
Behaviour of symptoms
Aggravating factors
For each syrnptomatic area, discover what movements
and lor positions aggravate the patient's
symptoms, i.e. what brings them on (or makes
them worse), how long it takes to aggravate them
and what happens to other symptom(s) when
one symptom is produced (or made worse).
These questions help to confirm the relationship
between the symptoms.
The clinician also asks the patient about theoretically
known aggravating factors for structures
that could be a source of the symptoms.
Common aggravating factors for the thoracic
spine are rotation of the thorax and deep breathing.
Aggravating factors for other joints, which
may need to be queried if any of these joints is
suspected to be a source of the symptoms, are
shown in Table 2.3.
Easing factors
For each symptomatic area, the clinician asks what
Il'lovements and/or positions ease the patient's
symptoms, how long it takes to ease them and
what happens to other symptom(s) when one
symptom is relieved. These questions help to
confirm the relationship between the symptoms.
The clinician asks the patient about theoretically
known easing factors for structures that could
be a source of the symptoms. For example, symptoms
from the thoracic spine may be eased by
thoracic extension, whereas symptoms arising
from the cervical spine may be eased by supporting
the head. The clinician should analyse the
EXAMINATION OF THE THORACIC SPINE 173
position or movement that eases the symptoms
in order to help determine the structure at fault.
Severity and irritability of symptoms
Severity and irritability are used to identify
patients who will not be able to tolerate a full physical
examination. Lf the patient is able to sustain a
position whidl reproduces the symptoms then the
condition is considered to be non-severe and overpressures
can be applied in the physical examination.
If the patient is unable to sustaDl the position,
the condition is considered to be severe and no
overpressures should be attempted.
If symptoms ease inunediately following provocation
then the condition is considered to be nonirritable
and aU movements can be tested in the
physical examination. If the symptoms take a few
minutes to ease, the symptoms are irritable and
only a few movements should be attempted to
avoid exacerbating the patient's symptoms.
Twenty-four hour behaviour of symptoms
The clinician determines the 24-hour behaviour
of symptoms by asking questions about night,
morning and eveni.ng symptoms.
Night symptoms. TI,e following questions shou Id
be asked:
• Do you have any difficulty getting to sleep?
• What position is most comfortablel
uncomfortable?
• What is your normal sleeping position?
• What is your present sleeping position?
• Do your symptom(s) wake you at night? If so,
- Which symptom(s)?
- How many times in the past week?
- How many times in a night?
- How long does it take to get back to
sleep?
• How many and what type of pillows are
used?
• Is your mattress firm or soft and has it been
changed recently?
Morning and evening symptoms. The clinician
determines the pattern of the symptoms first thing
in the morning, through the day and at the end of
the day. Stiffness Dl the morning for the first few
174 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
minutes might suggest spondylosis; stiffness and
pain for a few hours are suggestive of an inflammatory
process such as ankylosing spondylitis.
Daily variation of symptoms
The clinician ascertains how the symptoms vary
according to various daily activities, such as:
• Static and active postures, e.g. sitting,
standing, lying, washing, ironing, dusting,
driving (and reversing the car, which requires
trunk rotation), reading, writing, etc.
Determine whether the patient is left- or
right-handed.
• Work, sport and social activities that may be
relevant to the thoracic spine or other related
areas.
Detailed information on each of the above
activities is useful to help determine the structure
at fault and to identify clearly the functional
restrictions. This information can be used to
determine the aims of treatment and any advice
that may be required. The most important functional
restrictions are highlighted with asterisks
(0) and reassessed at subsequent treatment sessions
to evaluate treatment intervention.
Stage of the condition
In order to determine the stage of the condition,
the clinician asks whether the symptoms are
getting better, getting worse or remaining
unchanged.
Special questions
Special questions must always be asked as they
may identify certain precautions or absolute contraindications
to further examination and treatment
techniques (Table 2.4). As mentioned in
Chapter 2, the clinician must differentiate between
conditions that are suitable for conservative management
and systemic, neoplastic and other nonneuromusculoskeletal
conditions, which require
referral to a medical practitioner. The reader is
referred to Appendix 2 of Glapter 2 for details of
various serious pathological processes that can
mimic neuromusculoskeletal conditions (Grieve
1994).
The following information should be obtained
routinely for all patients.
General health. The clinician ascertains the
state of the patient's general health to find out if
the patient suffers from any cough, breathlessness,
chest pain, malai e, fatigue, fever, nausea
or vomiting, stress, anxiety or depression .
Weight loss. Has the patient noticed any recent
unexplained weight loss?
Rheumatoid arthritis. Has the patient (or a
member of his/her family) been diagnosed as
having rheumatoid arthritis?
Drug therapy. What drugs are being taken by
the patient? Has the patient been prescribed
long-term (6 months or more) medication/
steroids? Has the patient been taking anticoagulants
recently?
X-ray and medical Imaging. Has the patient
been X-rayed or had any other medical tests
recently? Routine spinal X-rays are no longer
considered necessary prior to conservative treatment
as they only identify the normal age-related
degenerative changes, which do not necessarily
correlate with the patient's symptoms (Clinical
Standards Advisory Report 1994). The medical
tests may include blood tests, magnetic resonance
imaging, myelography, discography or a
bone scan.
Neurological symptoms. Has the patient experienced
symptoms of spinal cord compression
which are bilateral tingling in hands or feet
and/or disturbance of gait?
Dizziness. This has been explored previously in
the body chart section.
History of the present condition
(HPC)
For each symptomatic area, the clinician should
discover how long the symptom has been present,
whether there was a sudden or slow onset
and whether there was a known cause that provoked
the onset of the symptom. If the onset was
slow, the clinician should find out if there has been
any change in the patien􀇄s life-style, e.g. a new job
or hobby or a change in sporting activity, that may
have affected the stresses on the thoracic spine and
related areas. To confirm the relationship between
symptoms, the clinician asks what happened to
other symptoms when eacll symptom began.
Past medical history (PMH)
The following information should be obtained
from the patient and/ or the medical notes:
• The details of any relevant medical history
• The history of any previous attacks: how
many episodes, when were they, what was the
cause, what was the duration of each episode
and did the patient fully recover between
episodes? If there have been no previous
attacks, has the patient had any episodes of
stiffness in the cervical, thoracic or lumbar
spine or any other relevant region? Check for
a history of traurna or recurrent rninor trauma.
• Ascertain the results of any past treatment for
the same or similar problem. Past treatment
records may be obtained for further
information.
Social and family history
Social and family history that is relevant to the
onset and progression of the patienrs problem
should be recorded. Examples of relevant information
might ",clude the age of the patient, employment.
the home situation, any dependants and
details of any leisure activities. Factors from this
information may indicate direct and/or indirect
mechanical influences on the thoracic spine. Ln
order to treat the patient appropriately, it is important
that the condition is managed within the context
of the patienrs social and work environment.
Plan of the physical examination
When all this information has been collected, the
subjective examination is complete. It is useful at
this stage to highlight with asterisks (*), for ease
of reference, important findings and particularly
one or more functional restrictions. These can
then be re-examined at subsequent treatment
sessions to evaluate treatment intervention.
EXAMINATION OF THE THORACIC SPINE 175
In order to plan the physical examination, the
following hypotheses need to be developed from
the subjective examination:
• The structures that must be examined as a
possible cause of the symptoms, e.g. thoracic
spine, cervical spine, lumbar spine, upper
limb joints, lower limb joints, soft tissues,
muscles and neural tissues. Often, it is not
possible to examine fully at the first
attendance and so examination of the
structures must be prioritized over
subsequent treatment sessions.
• Other factors that need to be examined, e.g.
working and everyday postures, vertebral
artery, Illuscle weakness.
• An assessment of the patient's condition in
terms of severity, irritability and nature (SlN):
- Severity of the condition: if severe, no
overpressures are applied
- Irritability of the condition: if irritable,
fewer movements are carried out
- Nature of the condition: the physical
examination may require caution in certain
conditions such as vertebrobasilar
insufficiency, neurological involvement,
recent fracture, trauma, steroid therapy or
rheumatoid arthritis; there Illay also be
certain contra indications to further
examination and treatment, e.g. symptoms
of cord compression.
A physical planning form can be useful for
clinicians to help guide them through the clinical
reasoning process (Figs 2.11 & 2.12).
PHYSICAL EXAMINATION
Throughout the physical examination, the clinician
must aim to find physical tests that reproduce
each of the patienrs symptoms. Each of these positive
tests is highlighted by an asterisk (*) and used
to detennine the value of treatment intervention
within and between treatment sessions. In the thoracic
spine, symptoms may spread proximally so
that physical testing needs to include the cervical
spine and upper limbs, or distally so that
the lumbar spine and lower limbs need to be
examined.
176 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
The order and detail of the physical tests
described below need to be appropriate to the
patient being examined. Some tests will be irrelevant,
others will only need to be carried out briefly,
while others will need to be fully investigated.
Observation
Informal observation
The clinician hould observe the patient in dynamic
and static situations; the quality of movement
is noted, as are the postural characteristics
and facial expression. lnformal observation will
have begun from the moment the clinician
begins the subjective examination and will continue
to the end of the physical examination.
Formal observation
Observation of posture. The clinician examines
the spinal posture of the patient in sitting and
standing, noting the level of the pelvis, scoliosis,
kyphosis or lordosis and the posture of the upper
and lower limbs. Typical postures include the
following and are described in more detail in
Chapter 3 and in Figures 3.2-3.8:
• Shoulder crossed syndrome Qanda 1994)
• Lower (or pelvic) crossed syndrome Qull &
Janda 1987) or the kyphosis-lordosis posture
(Kendall et a11993)
• Layer syndrome Qull & Janda 1987)
• Flat back (Kendall et a11993)
• Sway back (Kendall et a11993)
• Handedness pattern (Kendall et aI1993).
The clinician passively corrects any asymmetry
to determine its relevance to the patient's
problem. In addition, the clinician observes for
any chest deformity, such as pigeon chest, where
the sternum lies forward and downwards, funnel
chest, where the sternum lies posteriorly (which
may be associated with an increased thoracic
kyphosis), or barrel chest, where the sternum lies
forward and upwards (associated with emphysema)
(Magee 1992). The clinician notes the movement
of the rib cage during quiet respiration.
Observation of muscle form. The clinician
observes the muscle bulk and muscle tone of the
patient, comparing left and right sides. It must be
remembered that handedness and level and frequency
of physical activity may well produce
differences in muscle bulk between sides. Some
muscles are thought to shorten under stress,
while other muscles weaken, producing muscle
imbalance (see Table 3.2). Patterns of muscle
imbalance are thought to be the cause of the
altered postures mentioned above, as well as
other abnormal postures outlined in Table 6.1.
Observation of soft tissues. The clinician
observes the quality and colour of the patient's
skin and any area of swelling or presence of scarring,
and takes cues for further examination.
Observation of gail. The typical gait patterns that
might be expected in patients with low thoracic
pain or lumbar spine pain are the gluteus maximus
gait, Trendelenburg's gait and the short leg
gait. These are described more fully ill Chapter 3.
Observation of the patient's attitudes and feelings.
The age, gender and ethnicity of patients
and their cultural, occupational and social backgrounds
will all affect their attitudes and feelings
towards themselves, their condition and the clinician.
The clinician needs to be aware of and sensitive
to these attitudes, and to empathize and
communicate appropriately so as to develop a
rapport with the patient and thereby enhance the
patient's compliance with the treatment.
Joint tests
Joint tests include integrity tests and active and
passive physiological movements of the thoracic
spine and other relevant joints. Passive accessory
movements complete the joint tests and are
described towards the end of the physical examinatiol1.
Joint integrity tests
A lateral stability (rotation) test for the mid thoracic
spine (T􀇁7) is carried out with the patient
sitting, with the arms across the chest. For the
T5-{5 level, the following procedure is carried
out. The clinician firstly examines the available
range of lateral translation by translating
the 6th ribs (and TS) laterally while stabilizing
Figure 7.1 Range of movement al T5-6 level. The thumb
and index finger of the left hand stabilize the spinous process
and transverse processes of T6, while the right hand
translates the 6th ribs (and T5) laterally.
the spinous process and transverse processes
of T6 (Fig. 7.1). The range and end feel of the
movement at this level are then compared
with the level above and below. Stability of
the thoracic segment is then tested by translating
the 5th rib (and T5) in the transverse plane
while stabilizing the spinous process and transverse
processes of T6 and the 6th ribs (Fig. 7.2). If
there is instability at the T5-6 level, the clinician
will feel movement during this test (Lee 1996).
Active and passive physiological joint movement
For both active and passive physiological joint
movement, the clinician should note the following:
• The quality of the movement
• The range of the movement
• The behaviour of the pain through the range
of movement
• The resistance through the range of movement
and at the end of the range of movement
• Any provocation of muscle spasm.
A movement diagram can be used to depict
this information.
Active physiological joint movement with overpressure.
The active movements with overpres-
EXAMINATION OF THE THORACIC SPINE In
Figure 7.2 Stability of T5-6 level. The thumb and index
finger of the left hand stabilize the spinous process and
transverse processes of T6 while the right hand translates
the 5th ribs (and T5) laterally.
sure listed below (Fig. 7.3) are tested with the
patient in sitting.
The clinician establishes the patient's symptoms
at rest prior to each movement and corrects
any movement deviation to determine its relevance
to the patient's symptoms.
For the thoracic spine, the follOWing should be
tested:
• Rexion
• Extension
• L lateral flexion
• R lateral flexion
• L rotation
• R rotation
• L quadrant
• Rquadrant
• Repetitive flexion (rep flex)
• Repetitive extension (rep ext)
• Repetitive rotation L (rep rot)
• Repetitive rotation R (rep rot).
If all movements are full and symptom-free on
overpressure, and symptoms are aggravated by
certain postures, the condition is categorized as a
postural syndrome.
Modifications to the examination of active physiological
movements. For further information
178 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
A
C
E
B
D
Figure 7.3 Overpressures to the thoracic spine. These
movements are all carried out with the patient's arms
crossed.
A Flexion. Both hands on top of the shoulders push down to
increase thoracic flexion.
B Extension. Both hands on top of the shoulders push down
to increase thoracic extension.
C Lateral flexion. Both hands on top of the shoulders apply a
force to increase thoracic lateral flexion.
o Rolation. The left hand resls behind the patient's right
shoulder and the right hand lies on the front of the left
shoulder. Both hands then apply a force to increase left
thoracic rotation.
E Right quadrant. This movement is a combination of
extension, right rotation and right lateral flexion. Both hands
are placed on top of the shoulders; the patient then actively
extends and the clinician then passively rotates and laterally
flexes the thoracic spine 10 Ihe left.
about the active range of movement, the following
can be carried out:
• The movement can be repeated several times
- If on repeated movements there is no
change in area of symptoms, the condition
is categorized as a dysfunction syndrome
(McKenzie 1990)
- If on repeated movements,
peripheralization and centralization
syndrome is manifested, this is
characterized as a derangement syndrome;
there are three types of derangement
syndromes described (Table 7.1)
• The speed of the movement can be altered
• Movements can be combined (Edwards 1999).
Any number of positions could be used; those
described by Edwards are:
- Flexion then rotation (Fig. 7.4)
- Extension then rotation
• Compression or distraction - compression or
distraction to the thoracic spine can be added
to one or more of the physiological
movements
• Movements can be sustained
• The injuring movement, i.e. the movement
that occurred at the time of the injury, can be
tested
• Differentiation tests.
Numerous differentiation tests (Maitland
1986) can be performed; the choice depends on
the patient's signs and symptoms. For example,
when turning the head around to the right reproduces
the patient's right-sided infrascapular
pain, differentiation between the cervical and
thoracic spine is required. The clinician can
Table 7.1 Derangement syndromes of the thoracic spine
(McKenzie 1 990)
Derangement Clinical presentation
Central or symmetrical pain around Tl-T 1 2
N o deformity
Rapidly reversible
2 Acute kyphosis due to trauma (rare)
3 Unilateral or asymmetrical pain around
thoracic region with or without radiation
laterally around chest wall
Rapidly reversible
EXAMINATION OF THE THORACIC SPINE 179
Figure 7.4 Combined movement for the thoracic spine.
The right hand grips around the posterior aspect of the
patient's left shoulder while the left hand rests over the left
side of the thorax. Both hands then apply a force to cause
flexion and this position is maintained while right rotation of
the thoracic spine is added.
increase and decrease the rotation at the cervical
and thoracic regions to find out what effect this
has on the infrascapular pain. The patient turns
the head and trunk around to the right and the
clinician maintains the position of the cervical
spine and derotates the thoracic spine, noting the
pain response. If symptoms remain the same or
increase, the clinician confirms that the cervical
spine is the source of symptoms by increaSing
the overpressure to the cervical spine, which
should increase symptoms.
The position of cervical and thoracic rotation is
then resumed and this time the clinician maintains
the position of the thoracic spine and derotates
the cervical spine, noting the pain response
(Fig. 7.5). If the symptoms remain the same or
increase, the clinician confirms that the thoracic
spine is the source of symptoms by increasing
the overpressure to the thoracic spine, which
should increase symptoms.
Capsular pattern. No clear capsular pattern is
apparent in the thoracic spine.
Passive physiological joint movement. This can
take the form of passive physiological intervertebral
movements (PPlYMs), which examine the
movement at each segmental level. PPlVMs can be
180 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 7.5 Differentiation lest. The clinician maintains right
rolation of the thoracic spine while the patient turns the head
to the left.
a useful adjunct to passive accessory intervertebral
movements (pAl VMs) to identify segmental hypomobility
and hypemlObility. They can be performed
in the supine position or sitting. n,e
clinician palpates between ad􀇂1cent spinous processes
or transverse processes to feel the range of
intervertebral movement during thoracic flexion,
extension, rotation, lateral flexion and lateral glide.
Figure 7.6 demonstrates P!'IVMs for flexion and
extension of the thoracic spine.
Other joints
Other joints apart from the thoracic spine need to
be examined to prove or disprove their relevance
to the patient's condition. The joints most likely
to be a source of the symptoms are the cervical
spine and joints of the upper limbs, or the lumbar
spine and joints of the lower limbs. These joints
can be tested fully (see relevant chapter) or, if
they are not suspected to be a source of symptoms,
the relevant clearing tests can be used (see
Table 3.6).
Muscle tests
The muscles that need to be tested will depend
on the area of the signs and symptoms and may
Figure 7.6 PPIVMs for flexion and extension of the thoracic
spine. The clinician's left index finger is placed in the gap
between adjacent spinous processes and the patient is
passively lIexed and then extended by grasping around the
thorax with the right hand.
include the cervical spine and upper limbs or the
lumbar spine and lower limbs.
Muscles tests include examining muscle
strength, control, length and isometric contraction.
Muscle strength
The clinician should test the trunk flexors, extensors,
lateral flexors and rotators and other relevant
muscle groups as necessary. For details of
these general tests the reader is directed to
Daniels & Worthingham (1986), Cole et al (1988)
and Kendall et al (1993).
Greater detail may be required to test the
strength of individual muscles, in particular
those muscles prone to become weak (Table 3.2).
Details of testing the strength of these muscles
are given in Chapter 3.
Muscle control
n,e relative strength of muscles is considered to be
more inlportant than the overall strength of
a muscle group Ganda 1994). Relative strength is
assessed indirectly by observing posture, as
already mentioned, by the quality of movement,
noting any changes in muscle recmihnent pattenls,
and by palpating muscle activity in various
positions.
Muscle imbalance around the scapula has been
described by a number of workers (Jull & Janda
1987, Janda 1994) and can be assessed by observation
of upper limb movements, e.g. observation
of the patient performing a slow push-up
from the prone position. The clinician watches
for any excessive or abnormal movement of the
scapula; muscle weakness rnay cause the scapula
to rotate and glide laterally and/or move superiorly.
Serratus anterior weakness, for example,
will cause the scapula to wing (the medial border
moves away from the thorax). Another movement
that can be analysed is shoulder abduction
performed slowly, with the patient sitting and
the elbow flexed. Once again the clinician
observes the quality of movement of the shoulder
joint and scapula, and notes any abnormal or
excessive movement.
The lateral abdominal muscles may be tested if
appropriate. A relatively new method of measurLng
isolated isometric muscle contraction for this
muscle group has been described by Jull &
Richardson (1994). The method is described in
Chapter 11.
Muscle length
The clinician checks the length of individual
muscles, in particular those muscles prone to
become short (Table 3.2). Details of testing the
length of these muscles are given in Chapter 3.
Isometric muscle testing
The clinician tests the trunk flexors, extensors, lateral
flexors and rotators (and any other relevant
muscle groups) in resting position and, if indicated,
in different parts of the physiological range. In
addition the clinician observes the quality of the
muscle contraction to hold this position (this can
be done with the patient's eyes shut). The patient
may, for example, be unable to prevent the joint
from moving or may hold with excessive muscle
activity; either of these circumstances would suggest
a neuromuscular dysfwlCtion.
Neurological tests
Neurological examination involves examining
the integrity of the nervous system, the mobility
EXAMINATION OF THE THORACIC SPINE 181
of the nervous system and specific diagnostic
tests.
Neurological integrity
The distribution of symptoms will determine the
appropriate neurological examination to be carried
out. Symptoms confined to the mid thoracic
region require dermatome/ cutaneous nerve test
only, since there is no myotome or reflex that can
be tested. If symptoms spread proximally or distally,
a neurological examination of the upper or
lower limbs respectively is indicated; testing is
described in Chapter 3.
Dermatomes/peripheral nerves. Light touch and
pain sensation of the thorax are tested using cotton
wool and pinprick respectively, as described
in Chapter 3. A knowledge of the cutaneous distribution
of nerve roots (derma tomes) and
peripheral nerves enables the clinician to distinguish
the sensory loss due to a root lesion from
that due to a peripheral nerve lesion. The cutaneous
nerve distribution and dermatome areas
are shown in Figure 3.19.
Mobifity of the nervous system
The following neurodynamic tests may be carried
out in order to ascertain the degree to which
neural tissue is responsible for the production of
the patient's symptom(s):
• Passive neck flexion (PNF)
• Upper limb tension tests (UL TT)
• Straight leg raise (SLR)
• Passive knee bend (PKB)
• Slump.
These tests are described in detail in Chapter 3.
Other neural diagnostic tests
Plantar response to test for an upper motor neurone
lesion (Walton 1989). Pressure applied from
the heel along the lateral border of the plantar
aspect of the foot produces flexion of the toes in
the normal. Extension of the big toe with downward
fanning of the other toes occurs with an
upper motor neurone lesion.
182 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Special tests
Respiratory tests
These tests are appropriate for patients whose
spinal dysfunction is such that respiration is
affected and may include conditions such as
severe scoliosis and ankylosing spondylitis.
Auscultation and examination of the patient's
sputum may be required, as well as measurement
of the patient's exercise tolerance.
Vital capacity can be measured using a handheld
spirometer. Normal ranges are 2.5--6 L for
men and 2-5 L for women (Johnson 1990).
Maximum inspiratory and expiratory pressures
(P, m.,/M IP, PE mox/MEP) reflect respiratory
muscle strength and endurance. A maximum static
inspiratory or expiratory effort can be measured
by a hand-held mouth pressure monitor
(Micromedical Ltd, Chatham, Kent). Normal values
(Wilson et aI 1984) are:
P, mox' greater than 100 cmH,O for males and
greater than 70 cmH,O for females
PE mox' greater than 140 cmH,O for males and
greater than 90 cmH,O for females
Vascular tests
Tests for thoracic outlet syndrome are described
in Chapter 8.
Functional ability
Some functional ability has already been tested by
the general observation of the patient during the
subjective and physical examinations, e.g. the postures
adopted during the subjective examination
and the ease or difficulty of undressing prior to the
examination. Any further functional testing can be
carried out at this point in the examination and
may include Sitting postures, inspiration, expiration,
cough, lifting, etc. Clues for appropriate tests
can be obtained from the subjective examination
findings, particularly aggravating factors.
Palpation
The clinician palpates the thoracic spine and, if
appropriate, the cervical/lumbar spine and
upper/lower limbs. It is useful to record palpation
findings on a body chart (see Fig. 2.4)
and/or palpation chart (Fig. 3.37).
The clinician should note the following:
• The temperature of the area
• Localized increased skin moisture
• The presence of oedema or effusion
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules and scarring
• The presence or elicitation of any muscle
spasm
• Tenderness of bone, ligaments, muscle,
tendon, tendon sheath, trigger points (shown
in Figure 3.38) and nerve; palpable nerves in
the upper limb are as follows:
- The suprascapular nerve can be palpated
along the superior border of the scapula in
the suprascapular notch
- The brachial plexus can be palpated in the
posterior triangle of the neck; it emerges at
the lower third of sternocleidomastoid
- The suprascapular nerve can be palpated
along the superior border of the scapula in
the suprascapular notch
- The dorsal scapular nerve can be palpated
medial to the medial border of the scapula
- The median nerve can be palpated over the
anterior elbow joint crease, medial to the
biceps tendon, also at the wrist between
pa􀇃naris longus and flexor carpi radialis
- The radial nerve can be palpated around
the spiral groove of the humerus, between
brachioradialis and flexor carpi radialis, in
the forearm and also at the wrist in the
snuff box
• Increased or decreased prominence of bones
• Pain provoked or reduced on palpation.
Passive accessory intervertebral
movements (PAIVMs)
It is useful to use the palpation chart and movement
diagrams (or jOint pictures) to record findings.
These are explained in detail in Chapter 3.
The clinician should note the following:
• The quality of movement
• The range of movement
• The resistance through the range and at the
end of the range of movement
• The behaviour of pain through the range
• Any provocation of muscle spasm.
Thoracic spine (TI-TI2) accessol)l movements
The thoracic spine (Tl-T12) accessory movements
are as follows (Fig. 7.7) (Maitland 1986):
t central posteroanterior
unilateral posteroanterior
transverse.
Accessol)l movements to the rib cage
Accessory movements to the rib cage (ribs 1-12)
(Maitland 1991) are as follows (Fig. 7.8):
caud longitudinal caudad 1st rib
anteroposterior
posteroanterior
med medial glide.
Accessol)l movements to the costochondral,
interchondral and sternocostal joints
Accessory movements to the costochondral,
interchondral and sternocostal joints are as follows
(Fig. 7.9) (Maitland 1991):
anteroposterior.
For further information when examining the
accessory movements, alter the:
• Speed of force application
• Direction of applied force
• Point of application of the applied force
• Position of the jOint. In lying, the thoracic
spine can be placed in a variety of positions;
commonly the spine is positioned in one of the
following (Ed wards 1999):
- Flexion (Fig. 7.10)
- Extension
- Lateral flexion
- Flexion and rotation
Extension and rotation.
These positions are thought to increase and
decrease the compressive and stretch effect at the
intervertebral joints.
EXAMINATION OF THE THORACIC SPINE 183
A
B
Figure 7.7 Thoracic spine (Tl-T12) accessory
movements. A Central posteroanterior. A pisiform grip is
used to apply pressure to the spinous process. B Unilateral
posteroanterior. Thumb pressure is applied 10 the transverse
process. C Transverse. Thumb pressure is applied to the
lateral aspect of the spinous process.
Follo\·ving accessory movements, the clinician
reassesses all asterisks (movements or tests that
have been found to reproduce the patient's symptoms)
in order to establish the effect of accessory
movements on the patient's signs and symptoms.
This helps to prove/disprove slructure(s) at fault.
C
C
184 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
B
D
Figure 7.8 Accessory movements to ribs 1-12. A Longitudinal caudad 1st rib. Thumb pressure is applied to the superior
aspect of the 1st rib and pressure is applied downwards towards the feet. B Anteroposterior. Thumb pressure is applied to the
anterior aspect of the rib. C Posteroanterior. Thumb pressure is applied to the posterior aspect of the rib. 0 Medial glide. Thumb
pressure is applied to the lateral aspect of the rib.
Other joints as applicable
Accessory movements can then be tested for
other joints suspected to be a source of symptoms,
and by reassessing the asterisks the
clinician is then able to prove/ disprove the structure(
s) at fault. Joints likely to be examined are
the cervical spine and upper limb joints or the
lumbar spine and lower limb jOints.
Sustained natural apophyseal glides (SNAGs)
These examination techniques can be applied to
thoracic flexion, extension and rotation. The
painful thoracic spine movements are examined
in sitting and/or standing. Pressure to the spinous
process and/or transverse process of the
thoracic vertebrae is applied by the clinician as
the patient moves slowly towards the pain.
Figure 7.11 demonstrates an extension SNAG on
the T6 spinous process. In this example, the technique
aims to facilitate the glide of the inferior
facets of T6 upwards on T7, so that, if there is a
reduction in pain, the T6-7 segmental level is
implicated as a source of the pain. For further
details on these techniques, see Chapter 3 and
Mulligan (1995).
COMPLETION O F THE EXAMINATION
Having carried Ollt the above tests, the examination
of the thoracic spine is now complete. The
subjective and physical examinations produce a
large amount of information, which needs to be
recorded accurately and quickly. An outline examination
chart may be useful for some clinicians and
one is suggested in Figure 7.12. It is important,
A
Figure 7.9 Anteroposterior accessory movement to the
costochondral, interchondral and stemocostal joints.
A Costochondral joint. Thumb pressure is applied to the
8th, 9th or 1 Dlh costochondral joints. B !nterehondral jOint.
Thumb pressure is applied to the costal cartilage.
C Sternocostal joint. Thumb pressure is applied to the
sternocostal joint.
EXAMINATION OF THE THORACIC SPINE 185
Figure 7.10 Palpation of the thoracic spine using a
combined movement. The clinician applies a central PA 10
T6 with the spine positioned in flexion.
Figure 7.11 Extension SNAG on T6. The clinician applies a
posteroanterior pressure to the spinous process of T6 using
the heel of the left hand while the patient moves slowly into
extension, guided by the clinician's right arm.
186 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Subjective examination
Body chart
/J
- -
.. '"
􀀃
RelatIOnship of symptoms
,<,.
. 􀀆
􀀄 -� 􀀅
Name
Age
Date
24 hour behaviour
Function
Improving Static
SpecIal questions
General health
Weight loss
RA
Drugs
Steroids
Anticoagulants
X-ray
Worsenmg
Cord/cauda equlna symptoms
Aggravating factors
Severe Irntable
Easmg factors
I
No pam
Figure 7.12 Thoracic spine examination chart.
DIZZiness
HPC
PMH
SH & FH
I
Pain as bad as It
IntenSity of pam could possibly be
Physical examination
Observation
Jomt tests
Lateral stability test
Active and passive JOint movement
Flexion
Rep flexion
Extension
Rep extenSion
Lat flexion L
Lat flexion A
Rotation L
Rotation A
Rep rotal!On L
Rep rotalion A
Quadrant L
Quadran! A
Repeated movements
Combmed movements
PPIVMs
Other JOints
Muscle tescs
Muscle strength
Muscle control
Muscle length
Figure 7.12 (conrd)
EXAMINATION OF THE THORACIC SPINE 187
Isometnc muscle tests
Neurological rests
Integrity of the nervous system
(dermatomes only)
Mobility of the nervous system
Diagnostic tests
(plantar response)
Special tests
(respiratory tests, thoracIc outlet)
Function
Palpation
Accessory movements
Ocher JOintS
SNAGS
188 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
however, that the clinician does not examine in a
rigid manner, simply following the suggested
sequence outlined in the chart. Each patient presents
differently and this should be reflected in
the examination process. It is vital at this stage to
highlight with an asterisk (» important findings
from the examination. These findings must be
reassessed at. and within, subsequent treatment
sessions to evaluate the effects of treatment on the
patient's condition.
On completion of the physical examination the
examiner should:
• Warn the patient of possible exacerbation up
to 24-48 hours following the examination.
• Request the patient to reporl details on the
REFERENCES
Clinical Standards Advisory Report 1994 Report of a CSAG
committee on back pain. HMSO, London
Cloward R B 1959 Cervical discography: a contribution to the
aetiology and mechanism of neck, shoulder and arm pain.
Ann.lls of Surgery 150(6): 1 052-1064
Cole J H, Furness A L, Twomey L T 1988 Muscles in action,
an approach to manual muscle testing. Churchill
Livingstone, Edinburgh
Daniels L, Worthingham C 1 986 Muscle testing. techniques
of manual examination,sth ron. W B Saunders,
Philadelphia, PA
Edwards B C 1999 Manual of combined movements: their
use in the examination and treatment of mechanical
vertebral column disorders, 2nd cdn. Butlerworthlleinemann,
Oxford
Grieve G P 199-4 Counterfeit clinical presentations.
Manipulative PhYSiotherapist 26: 17-19
Janda V 1994 Muscles and motor control in cervicogenic
disorders: assessment and management. In: Grant R (ed)
Physical therapy of the cervical and thoracic spine,
2nd edn. Churchill liVingstone, ew York, ch 10,
P 195
John􀃋n N M 1990 Respiratory mcdicine, 2nd cdn. Blackwell
Scientific Publications, Oxford, ch 3, p 37
Jull G A, Janda V 1987 Muscles and motor control in low
back pain: assessment and management. In: Twomey L T,
Taylor J R (cds) Physical therapy of the low back. Churchill
Livingstone, New York, ch 10, p 253
behaviour of the symptoms following
examination at the next attendance.
• Explain the findings of the physical
examination and how these findings relate to
the subjective assessment. An attempt should
be made to clear up any misconceptions
patients may have regarding their illness or
injury.
• Evaluate the findings, formulate a clinical
diagnosis and write up a problem list.
Clinicians may find the management planning
forms shown in Figures 3.51 and 3.52 helpful
in guiding them through what is often a
complex clinical reasoning process .
• Determine the objectives of treatment.
• Devise an initial treatment plan .
Jull G A, Richardson C A 1994 Rehabilitation of adi\'e
stabilization of the lumbar spine. In: Twomey L T,
Taylor J R (cds) Physical therapy of the low back,
2nd edn. Churchill llvingstonc, New York, ch 9,
p 251
Kendall F P, McCreary E K, Provance P G 1993 MU<'cles
testing and function, 4th edn. Williams & Wilkins,
Baltimore, MD
Lee D G 1996 Rotational instability of the mid-thoracic "pine:
a::>sessment and management. Manual Therapy 1(5):
234--241
McKenzie R A 1990 The cervical and thoracic spine
mechanical diagnosis and therapy. Spinal Publications,
New Zcaland
Magee D J 1992 Orthopedic physical assessment, 2nd cdn.
W B Saunders, Philadelphia, PA
Maitland G 0 1986 Vertebral manipulation, 5th cd".
Buttcnvorths, London
Maitland G D 1991 Peripheral manipulation, 3rd cdn
Butterworths, London
Mulligan B R 1 995 Manual therapy 'nags', 'snags', 'MWMs'
etc., 3rd cdn. Plant View Services, New Zealand
Walton J 11 1989 Essentials of neurology, 6th cdn. Churchill
Livingstone, Edinburgh
Wilson 5 H, Cooke N T, Edwards R 11 T, Spiro S G 1984
Predicted nonnal values for maximal respiratory
pressures in Caucasian adults and children. Thorax 19:
535-538


















For shoulder medial rotation, the patient
stands or sits with the hand behind the back. The
clinician stabilizes the scapula and adducts the
upper arm while applying a longitudinal caudad
glide to the humerus, and at the same time the
patient actively rotates the shoulder medially
(Fig. 8.15).
COMPLETION OF THE EXAMINATION
Having carried out the above tests, the examination
of the shoulder region is now complete. The
subjective and physical examinations produce a
large amount of information, which needs to be
recorded accurately and quickly. An outline
examination chart may be useful for some clinicians
and one is suggested in Figure 8.16. It is
important, however, that the clinician does not
examine in a rigid manner, simply following the
suggested sequence outlined in the chart. Each
patient presents differently and this should be
patient in sitting (Fig. 8.14). An increase in range
and no pain or reduced pain are positive examination
findings; this may be indicative of anterior
instability.




CHAPTER CONTENTS
Possible causes of pain and/or limitation of
movement 213
Subjective examination 214
Body chart 214
Behaviour of symptoms 214
Special questions 216
Hislory of the present condition (HPC) 216
Past medical history (PMH) 2t6
Social and family history 216
Pian of the physical examination 217
Physical examination 217
Observation 217
Joint tests 218
Muscle tesls 222
Neurological tests 223
Special tests 224
Functional ability 224
Palpation 224
Accessory movements 225
Completion of the examination 227
Examination of the elbow
region
POSSIBLE CAUSES OF PAIN ANDIOR
LIMITATION OF MOVEMENT
This region includes the humeroulnar joint,
the radiohumeral joint and the superior
radioulnar joints with their surrounding soft
tissues.
• Trauma
- Fracture of humerus, radius or ulna
- Dislocation of the head of the radius
(most commonly seen in young children)
- Ligamentous sprain
- Muscular strain
- Volkmann's ischaemic contracture
- Tennis elbow/golfer's elbow
• Degenerative conditions - osteoarthrosis
• Calcification of tendons or muscles, e.g.
myositis ossificans
• Inflammatory disorders - rheumatoid
arthritis
• Infection, e.g. tuberculosis
• Compression of, or injury to, the ulnar
nerve
• Bursitis (of subcutaneous olecranon,
subtendinous olecranon, radioulnar or
bicipitoradial bursa)
• Cubital varus or cubital valgus
213
214 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• Neoplasm - rare
• Hypermobility syndrome
• Referral of symptoms from the cervical
spine, thoracic spine, shoulder, wrist or
hand
Further details of the questions asked during the
subjective examination and the tests carried out
in the physical examination can be found in
Chapters 2 and 3 respectively.
The order of the subjective questioning and the
physical tests described below can be altered as
appropriate for the patient being examined.
SUBJECTIVE EXAMINATION
Body chart
The following information concerning the type
and area of current symptoms should be recorded
on a body chart (Fig. 2.4).
Area of current symptoms
Be exact when mapping out the area of the symptoms.
A lesion in the elbow joint complex may
refer symptoms distally to the forearm and hand,
particularly if the common flexor or extensor tendons
of the forearm are affected at the elbow. As-­
certain which is the worst symptom and record
where the patient feels the symptoms are coming
from.
Areas relevant to the region being examined
Clear all other areas relevant to the region being
examined, especially between areas of pain,
paraesthesia, stiffness or weakness. Mark these
unaffected areas with ticks (,() on the body chart.
Check for symptoms in the cervical spine, thoracic
spine, shoulder, wrist and hand.
Quality of pain
Establish the quality of the pain.
Intensity of pain
The intensity of pain can be measured using, for
example, a visual analogue scale (VAS) as shown
in the examination chart at the end of this chapter
(Fig. 9.11).
Depth of pain
Discover the patient's interpretation of the depth
of the pain.
Abnormal sensation
Check for any altered sensation (such as paraesthesia
or numbness) locally around the elbow
region as well as over the shoulder and spine and
distally in the arm.
Constant or intermittent symptoms
Ascertain the frequency of the symptoms, whether
they are constant or intermittent. If symptoms are
constant, check whether there is variation in the
intensity of the symptoms, as constant wlremitting
pain may be indicative of neoplastic disease.
Relationship of symptoms
Determine the relationship between the symptomatic
areas - do they come together or separately?
For example, the patient could have the
elbow pain without the shoulder pain, or they
may always be present together.
Behaviour of symptoms
Aggravating factors
For each symptomatic area, discover what movements
and/or positions aggravate the patient's
symptoms, i.e. what brings them on (or makes
them worse), how long it takes to aggravate them
and what happens to other symptom(s) when
one symptom is produced (or made worse).
These questions help to confirm the relationship
between the symptoms.
The clinician also asks the patient about theoretically
known aggravating factors for structures
that could be a source of the symptoms.
Common aggravating factors for the elbow are
gripping, pronation and supination of the forearm,
and leaning on the elbow. Aggravating factors
for other joints, which may need to be
queried if any of these joints is suspected to be a
source of the symptoms, are shown in Table 2.3.
Easing factors
For each symptomatic area, the ciillician asks what
Il'lovements and/or positions ease the patient's
symptoms, how long it takes to ease them and
what happens to other symptoms when one symptom
is relieved. These questions help to confirm
the relationship between the symptoms.
The clinician asks the patient about theoretically
known easing factors for structures that could be a
source of the symptoms. For example, symptoms
from the elbow joint may be relieved by pulling
the forearm away from the upper arm, whereas
symptoms from neural tissues may be relieved by
shoulder girdle elevation, which reduces tension
on the brachial plexus. The clinician should
analyse the position or movement that eases the
symptoms in order to help determine the structure
at fault. Find out what happens to other symptom(
s) when one symptom is relieved; this helps
confirm the relationship of symptoms.
Severity and irritability of symptoms
Severity and irritability are used to identify
patients who will not be able to tolerate a full
physical examination. If the patient is able to sustain
a position that reproduces their SYlllptoms,
the condition is considered to be non-severe and
overpressures can be applied in the physical
examination. If the patient is unable to sustain
the position, the condition is considered severe
and no overpressures should be attempted.
If symptoms ease immediately following provocation
then the condition is considered to be nonirritable
and all movements can be tested in the
physical examination. If the symptoms take a few
minutes to ease, the symptoms are irritable and
only a few movements should be attempted to
avoid exacerbating the patient's symptoms.
Twenty-four hour behaviour of symptoms
The clinician determines the 24-hour behaviour
of symptoms by asking questions about night,
morning and evening symptoms.
EXAMINATION OF THE ELBOW REGION 215
Night symptoms. The following questions
should be asked:
• Do you have any difficulty getting to sleep?
• What position is most comfortable/
uncomfortable?
• What is your normal sleeping pOSition?
• What is your present sleeping position?
• Do your symptom(s) wake you at night? If so,
Which symptom(s)?
- How many times in the past week?
- How many times in a night?
- How long does it take to get back to sleep?
• How many and what type of pillows are used?
Morning and evening symptoms. The clinician
determines the pattern of the symptoms first
thing in the morning, through the day and at the
end of the day.
Function
The clinician ascertains how the symptoms vary
according to various daily activities, such as:
• Static and active postures, e.g. leaning on the
forearm or hand, writing, turning a key in a
lock, opening a bottle, ironing, gripping,
lifting, carrying, etc. Establish whether the
patient is left- or right-handed.
• Work, sport and social activities which may be
relevant to the elbow region. The clinician
should obtain details of the patient's training
regime for any sporting activities.
Detailed information about each of the above
activities is useful to help determine the structure
at fault and to identify clearly the functional
restrictions. This information can be used to
determine the aims of treatment and any advice
that may be required. The most important functional
restrictions are highlighted with asterisks
(*) and reassessed at subsequent treatment
sessions to evaluate treatment intervention.
Stage of the condition
Ln order to determine the stage of the condition the
clinician asks whether the symptoms are getting
better, getting worse or remaining unchanged.
216 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Special questions
Special questions must always be asked as they
may identify certain precautions or absolute
contraindications to further examination and
treatment techniques (Table 2.4). As mentioned
in Chapter 2, the clinician must differentiate
between conditions that are suitable for conservative
management and systemic, neoplastic
and other l1on-neuromusculoskeletal conditions,
which require referral to a medical practitioner.
The following information should be obtained
routinely for all patients.
General health. The clinician ascertains the
state of the patient's general health, and finds out
if the patient suffers fforn any malaise, fatigue,
fever, nausea or vomiting, stress, anxiety or
depression.
Weight loss. Has the patient noticed any recent
unexplained weight loss?
Rheumatoid arthritis. Has the patient (or a
member of his/her family) been diagnosed as
having rheumatoid arthritis?
Drug therapy What drugs are being taken by
the patient? Has the patient been prescribed
long-term (6 months or more) medication/
steroids? Has the patient been taking anticoagulants
recently?
X-ray and medical imaging. Has the patient
been X-rayed or had any other medical tests
recently? Routine spinal X-rays are no longer
considered necessary prior to conservative treatment
as they only identify the normal age-related
degenerative changes, which do not necessarily
correlate with the patient's symptoms (Clinical
Standards Advisory Report 1994). The medical
tests may include blood tests, magnetic resonance
imaging, myelography, discography or a
bone scan. For further information on these tests,
the reader is referred to Refshauge & Gass (1995).
Neurological symptoms if a spinal lesion is suspected.
Has the patient experienced symptoms of
spinal cord compression, which are bilateral tingling
in the hands or feet and/or disturbance of
gait?
Dizziness. This is relevant where there are
symptoms of pain, discomfort and/or altered
sensation emanating from the cervical spine,
where vertebrobasilar insufficiency (YBl) may be
provoked. Further questions about dizziness and
testing for vertebrobasilar insufficiency are
described more fully in Chapter 6.
History of the present condition
(HPC)
For each symptomatic area, the clinician should
discover how long the symptom has been present,
whether there was a sudden or slow onset
and whether there waS a known cause that provoked
the onsel of the symptom. If the onset was
slow, the clinician should find out if there has
been any change in the patient's life-style, e.g. a
new job or hobby or a change in sporting activity,
that may have contributed to the patient's condition.
To confirm the relationship between the
symptoms, the clinician asks what happened to
other symptoms when each symptom began.
Past medical history (PMH)
The following information should be obtained
from the patient and/or the medical notes:
• The details of any relevant medical history.
• The history of any previous attacks: how
many episodes, when were they, what was the
cause, what was the duration of each episode
and did the patient fully recover between
episodes? If there have been no previous
attacks, has the patient had any episodes of
stiffness in the cervical spine, thoracic spine,
shoulder, elbow, wrist, hand or any other
relevant region? Check for a history of trauma
or recurrent minor traurna.
• Ascertain the results of any past treatment for
the sallle or similar problem. Past treatment
records may be obtained for further
information.
Social and family history
Social and family history that is relevant to the
onset and progression of the patient's problem
should be recorded. Examples of relevant information
might include the age of the patient,
employment, the home situation, any dependants
and details of any leisure activities. Factors
from this information may indicate direct and/ or
indirect mechanical influences on the elbow. In
order to treat the patient appropriately, it is
important that the condition is managed within
the context of the patient's social and work environment.
Plan of the physical examination
When all this information has been collected, the
subjective examination is complete. It is useful at
this stage to highlight with asterisks (*), for ease
of reference, important findings and particularly
one or more functional restrictions. These can
then be re-examined at subsequent treatnlent
sessions to evaluate treatment intervention.
In order to plan the physical examination, the
following hypotheses need to be developed from
the subjective examination:
• The structures that must be examined as a
possible cause of the symptoms, e.g. elbow,
cervical spine, thorac.ic spine, shoulder, wrist,
hand, soft tissues, muscles and neural tissues.
Often, it is not possible to examine fully at the
first attendance and so examination of the
structures must be prioritized over
subsequent treatment sessions.
• Other factors that need to be examined, e.g.
working and everyday postures, muscle
weakness, grip on tennis racket and sporting
technique, such as service and strokes for
tennis, smash for badminton, etc.
• An assessment of the patient's condition in
terms of severity, irritability and nature
(SIN):
- Severity of the condition: if severe, no
overpressures are applied
- Irritability of the condition: if irritable,
fewer movements are carried out
- Nature of the condition: the physical
examination may require caution in certain
conditions such as recent fracture, trauma,
steroid therapy or rheumatoid arthritis;
there may also be certain contra indications
to further examination and treatment, e.g.
symptoms of cord compression or a cardiac
disorder.
EXAMINATION OF THE ELBOW REGION 217
A physical planning form can be useful for
clinicians to help guide them through the clinical
reasoning process (Figs 2.11 & 2.12).
PHYSICAL EXAMINATION
Throughout the physical examination, the clinician
must aim to find physical tests that reproduce
each of the patient's symptoms. Each of these positive
tests is highlighted by an asterisk (*) and used
to determine the value of treatment intervention
within and between treatment sessions. The order
and detail of the physical tests described below
need to be appropriate to the patient being examined.
Some tests will be irrelevant, others will only
need to be carried out briefly, while others will
need to be fully investigated.
Observation
Informal observation
The clinician should observe the patient in
dynamic and static situations; the quality of
movement is noted, as are the postural characteristics
and facial expression. Informal observation
will have begun from the moment the clinician
begins the subjective examination and will continue
to the end of the physical examination.
Formal observation
Observation of posture. The clinician observes
the bony and soft tissue contours of the elbow
region, as well as the patient's posture in sitting
and standing, noting the posture of the head and
neck, thoracic spine and upper limbs. Any asymmetry
should be passively corrected to determine
its relevance to the patient's problem. The
normal carrying angle is 5-10° in males and
10-15° in females (Magee 1992).
Observation of muscle form. The clinician
examines the muscle bulk and muscle tone of the
patient, comparing left and right sides. It must be
remembered that handedness and level and frequency
of physical activity may well produce
differences in muscle bulk between sides.
Observation of soft tissues. The clinician
observes the colour of the patient's skin and
218 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
notes any swelling over the elbow region or related
areas, taking cues for further examination.
Observation of the patient's attitudes and feelIngs.
The age, gender and ethnicity of patients
and their cultural, occupational and social backgrounds
will all affect their attitudes and feelings
towards themselves, their condition and the clinician.
The clinician needs to be aware of and sensitive
to these attitudes, and to empathize and
communicate appropriately so as to develop a
rapport with the patient and thereby enhance the
patient's compliance with the treatment.
Joint tests
Joint tests include integrity tests, active and passive
physiological movements of the elbow joint
complex and other relevant joints, and measurement
of any joint effusion. Passive accessory
movements complete the joint tests and are
described towards the end of the physical examination.
Joint integrity tests
The clinician observes the relative position of the
olecranon and the medial and lateral epi-
Figure 9.1 The position of the olecranon and medial and
lateral epicondyles should form a straight line with the elbow
in extension and an isosceles triangle with the elbow flexed
to 90°. (From Magee 1992, with permission.)
condyles. They should form a straight line with
the elbow in extension and an isosceles triangle
with the elbow in 90° flexion (Fig. 9.1) (Magee
1992). Alteration in this positioning is indicative
of a fracture or dislocation.
Ligamentous instability test. The medial collateral
ligament is tested by applying an abduction
force to the forearm with the elbow in slight
flexion and the hunlerus in lateral rotation; the
lateral collateral ligament is tested by applying
an adduction force to the forearm with the elbow
in slight flexion and the humerus in medial rotation
(Fig. 9.2). Excessive movement or reproduction
of the patient's symptoms is a positive test
and is indicative of instability of the elbow joint
(Volz & Morrey 1993).
Active and passive physiological joint movement
For both active and passive physiological joint
movement, the clinician should note the following:
• The quality of movement
• The range of movement
• The behaviour of pain through the range of
movement
• The resistance through the range of movement
and at the end of the range of movement
• Any provocation of muscle spasm.
A movement diagram can be used to depict
this information.
Active physiological movements with overpressure.
The active movements with overpressure
listed below and shown in Figure 9.3 are tested
with the patient lying supine or sitting.
Movements are carried out on the left and right
sides. The clinician establishes symptoms at rest,
prior to each movement, and corrects any movement
deviation to determine its relevance to the
patient's symptoms.
For the elbow joillt, the following should be
tested:
• Flexion
• Extension.
For the superior/ill/erior radiol/illar joil/ts, the following
should be tested:
A
EXAMINATION OF THE ELBOW REGION 219
B
Figure 9.2 Ligamentous instability test for the elbow. (From Volz & Morray 1993. with permission.) A Right arm, anterior view.
The medial collateral ligament is lested by applying an abduction force to the forearm with the elbow in slight flexion and the
humerus in lateral rotation. B Left arm, anterior view, The lateral collateral ligament is tested by applying an adduction force to
the forearm with the elbow In slight flexion and the humerus in medial rotation.
• Pronation
• Supination.
Modifications to the examination of active physiological
movements. For further information
about active range of movement, the following
can be carried out:
• The movements can be repeated several
times
• The speed of the movement can be altered
• Movements can be combined - two or more
physiological movements can be combined,
e.g. flexion with pronation or supination, or
pronation can be carried out in various
degrees of elbow flexion or extension
• Compression or distraction can be added, e.g.
the clinician can apply a compression or
distraction force to the humeroulnar or
radiohumeral joints during physiological
movements of the elbow
• Movements can be sustained
• The injuring movement, i.e. the movement
that occurred at the time of the injury, can be
tested
• Differentiation tests.
Various differentiation tests (Maitland 1991) can
be performed; the choice depends on the patient's
signs and symptoms. For example, when elbow
flexion reproduces the patient's elbow pain, differentiation
between the radiohumeral and humeroulnar
joint may be required. In this case, the
clinician takes the elbow into flexion to produce
the symptoms and then in turn adds a compression
force through the radius and then through the
ulna by radial and ulnar deviation of the wrist and
compares the pain response (Fig. 9.4). If symptoms
are from the radioulnar joint, for example, then the
patient may feel an increase in pain when compression
is applied to the radjohumeral joint but
not when compression is applied to the humeroulA
C
220 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 9.3 Overpressures to the elbow complex. A Flexion. The left hand supports underneath the elbow while the right hand
flexes the elbow. B Extension. The left hand supports underneath the elbow while the right hand extends the elbow.
C Supination. The left hand supports underneath the elbow while the right hand supinales the forearm. 0 Pronation. The left
hand supports underneath the elbow while the right hand pronates the forearm.
A B
Figure 9.4 Differentiation test between the radiohumeral and humeroutnar joint. The clinician lakes the elbow into flexion to
produce the symptoms and then in tum adds a compression force through the radius (A) and then the ulna (8) by taking the
wrist into radial and ulnar deviation respectively.
B
D
A
c
E
EXAMINATION OF THE ELBOW REGION 221
B
D
F
Figure 9.5 Passive physiological movements to the elbow complex. A Abduction. The right hand stabilizes the humerus while
the left hand abducts the forearm. B Adduction. The right hand stabilizes the humerus while the left hand adducts the forearm.
C Flexion/abduction. The right hand supports underneath the upper arm while the left hand takes the arm into flexion and
abduction. 0 Flexion/adduction. The right hand supports underneath the upper arm while the lett hand takes the arm into flexion
and adduction. E Extension/abduction. The right hand supports underneath the upper arm while the left hand takes the arm into
extension and abduction. F Extension/adduction. The right hand supports underneath the upper arm while the left hand takes
the forearm into extension and adduction.
nar joint. The converse would be true for the
hurneroulnar joint.
Capsular pattern. The capsular pattern for the
elbow jOint is greater limitation of flexion than
extension, and the pattern for the inferior
radioulnar joint is full range with pain at
extremes of range (Cyriax 1982).
Passive physiological jOint movement. All the
active movements described above can be examined
passively with the patient usually in supine,
comparing left and right sides. A cornparison of
the response of symptoms to the active and passive
movements can help to determine whether
the structure at fault is non-contractile (articular)
222 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
or contractile (extra-articular) (Cyriax 1982). If
the lesion is non-contractile, such as would occur
in ligament, then active and passive movements
will be painful and/or restricted in the same
direction. If the lesion is in a contractile tissue
(i.e. muscle), then active and passive movements
are painful and/or restricted in opposite directions.
Additional movement (Fig. 9.5) can be tested
paSSively (Maitland 1991), including:
• Abduction
• Adduction
• Flexion/abduction
• Flexion/adduction
• Extension/abduction
• Extension/adduction.
Other joints
Other joints apart from the elbow joint need to be
examined to prove or disprove their relevance to
the patient's condition. The joints most likely to
be a source of the symptoms are the shoulder,
cervical spine, thoracic spine, wrist and hand.
These joints can be tested fully (see relevant
chapter) or, if they are not suspected to be a
source of symptoms, the relevant clearing tests
can be used (Table 9.1).
Table 9.1 Clearing tests
JOint Physiological
movement
Cervical spine Quadrants
Thoracic spine Rotation and
quadrants
Shoulder girdle Elevation. depression,
Shoulder joint
protraction and retraction
Flexion and hand behind
back
Acromioclavicular All movements
jOint
Sternoclavicular All movements
joint
Wrist joint
Thumb
Fingers
Flexion/extension and
radiaVulnar deviation
Extension
carpometacarpal and
thumb opposition
Flexion at interphalangeal
joints and grip
Accessory
movement
All movements
All movements
Joint effusion
Measure the circumference of the joint using a
tape measure and compare left and right sides.
Muscle tests
Muscle tests include examining muscle strength,
length, isometric contraction and muscle bulk.
Muscle strength
The clinician tests the elbow flexors, extensors,
forearm pronators, supinators and wrist flexors,
extensors, radial deviators and ulnar deviators
and any other relevant muscle groups. For
details of these general tests, the reader is directed
to Daniels & Worthingham (1986), Cole et al
(1988) or Kendall et al (1993).
It may be necessary to test the strength of individual
muscles around the shoulder that are
prone to become weak Oanda 1994). These muscles
and a description of the test for muscle
strength are given in Chapter 3.
Muscle length
The clinician tests for tennis elbow by stretching
the extensor muscles of the wrist and hand, by
extending the elbow, pronating the forearm and
then flexing the wrist and fingers. A positive test
(i.e. muscle shortening) is indicated if the
patient's symptoms are reproduced or if range of
movement is limited compared to the other side.
The clinician tests for golfer's elbow by stretching
the flexor muscles of the wrist and hand, by
extending the elbow, supinating the forearm and
then extending the wrist and fingers. A positive
test is indicated if the patient's symptoms are
reproduced or if the range of movement is limited
compared to the other side.
It may be necessary to test the length of individual
muscles around the shoulder that are
prone to become short Oanda 1994). These muscles
and a description of the test for muscle
length are given in Chapter 3.
Isometric muscle testing
The clinician tests the elbow flexors, extensors,
forearm pronators, supinators and wrist flexors,
extensors, radial deviators and ulnar deviators
(and any other relevant muscle group) in resting
position and, if indicated, in different parts of the
physiological range. In addition the clinician
observes the quality of the muscle contraction to
hold this position (this can be done with the
patient's eyes shut). The patient may, for example,
be unable to prevent the joint from moving
or may hold with excessive muscle activity;
either of these circumstances would suggest a
neuromuscular dysfunction.
An additional test for tennis elbow is an isometric
contraction of extension of the third digit
- reproduction of pain or weakness over the lateral
epicondyle indicates a positive test. In the
same way, isometric contraction of the flexor
muscles of the wrist and hand can be examined
for golfer's elbow.
Muscle bulk
The clinician measures the circunlference of the
upper arm or forearm with a tape measure and
compares left and right sides.
Neurological tests
eurological examination involves examtntng
the integrity of the nervous system, the mobility
of the nervous system and specific diagnostic
tests.
Integrity of the nervous system
The integrity of the nervous system is tested if
the clinician suspects that the symptoms are
emanating from the spine or from a peripheral
nerve.
Dermatomes/peripheral nerves. Light touch and
pain sensation of the upper limb are tested using
cotton wool and pinprick respectively, as
described in Chapter 3. A knowledge of the cutaneous
distribution of nerve roots (derma tomes)
and peripheral nerves enables the clinician to
distinguish the sensory loss due to a root lesion
from that due to a peripheral nerve lesion. The
cutaneous nerve distribution and dermatome
areas are shown in Figure 3.20.
EXAMINATION OF THE ELBOW REGION 223
Myotomes/peripheral nerves. The following
myotomes are tested (Fig. 3.26):
• C4 - shoulder girdle elevation
• CS - shoulder abduction
• C6 - elbow flexion
• C7 - elbow extension
• C8 - thumb extension
• T1 - finger adduction.
A working knowledge of the muscular distribution
of nerve roots (myotomes) and peripheral
nerves enables the clinician to distinguish the
motor loss due to a root lesion from that due to a
peripheral nerve lesion. The peripheral nerve
distributions are shown in Figures 3.23 and 3.24.
Reflex testing. The following deep tendon
reflexes are tested (Fig. 3.28):
• C􀆑 - biceps
• C7 - triceps and brachioradialis.
Mobility of the nervous system (neurodynamic
tests)
The upper limb tension tests (UL TT) may be carried
out in order to ascertain the degree to which
neural tissue is responsible for producing the
patient's symptom(s). These tests are described
in detail in Chapter 3.
Other diagnostic tests for peripheral nerves
Ulnar nerve.
Tiners sign. This is used to determine the distal
point of sensory nerve regeneration. The ulnar
nerve is tapped by the clinician where it lies in
the groove between the olecranon and the medial
epicondyle and the most distal point that produces
abnormal sensation in the distribution of
the ulnar nerve indicates the point of recovery of
the sensory nerve (Magee 1992).
Sustained elbow flexion for 5 minutes producing
paraesthesia in the distribution of the ulnar
nerve is a positive test for cubital tunnel syndrome
(Magee 1992).
Median nerve.
Pinch-grip test. This tests for anterior interosseous
nerve entrapment (anterior interosseous
224 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
syndrome) between the two heads of pronator
teres muscle (Magee 1992). The test is considered
positive if the patient is unable to pinch tip-ta-tip
the index and thwnb, which is caused by impairment
of flexor poll ids longus, the lateral hall of
flexor digitorum profundus and pronator quadratus.
Test for pronator syndrome. This involves compression
of the median nerve just proximal to the
formation of the anterior interosseous nerve
(Magee 1992). In addition to the anterior interosseous
syndrome described above, the flexor carpi
radialis, palmaris longus and flexor digHorum
muscles are affected, thus weakening grip
strength; in addition, there is sensory loss in the
distribution of the median nerve.
Test for humerus supracondylar process syndrome.
This test involves compression of the median
nerve as it passes under the ligament of Struthers
(found in 1 % of the population) nllming from U,e
shaft of the humerus to the medial epicondyle
(Magee 1992). In addition to pronator syndrome
described above, the pronator teres muscle is
affected, thus weakening the strength of forearm
pronation.
Test for radial tunnel syndrome. This involves
compression of the posterior interosseous nerve
between the two supinator heads in the canal of
Frohse (found in 30% of the population) (Magee
1992). Forearm extensor muscles are affected,
weakening the strength of wrist and finger extension;
there are no sensory symptoms. This syndrome
can mimic tennis elbow.
Special tests
Thoracic outlet syndrome. These tests are
described in Chapter 8.
Palpation of pulses. If the circulation is suspected
of being compromised, the bracllial artery pulse is
palpated on the medial aspect of humenls in the
axilla and the radial artery at the wrist.
Measurement of oedema. If there is oedema present,
measure the circumference of the limb with a
tape measure and compare left and right sides.
Functional ability
Some functional ability has already been tested
by the general observation of the patient during
the subjective and physical examinations, e.g. the
postures adopted during the subjective examination
and the ease or difficulty of undressing prior
to the examination. Any further functional
testing can be carried out at this point in the
examination and may include sitting postures,
aggravating movements of the upper limb, etc.
Clues for appropriate tests can be obtained from
the subjective examination fjndings, particularly
aggravating factors. An elbow evaluation chart
such as the one devised by Morrey et al (1993)
may be useful to document elbow function.
Palpation
The elbow region is palpated, as well as the cervical
spine and thoracic spine, shoulder, wrist
and hand as appropriate. It is useful to record
palpation findings on a body chart (see Fig. 2.4)
and / or palpation chart (Fig. 3.37).
The clinician should note Ihe following:
• The temperature of the area
• Localized increased skin moisture
• The presence of oedema or effusion
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules and scar tissue
• The presence or elicitation of any muscle
spasm
• Tenderness of bone, the subcutaneou
olecranon bursa, ligaments, muscle, tendon
(long head of biceps, forearm flexors and
extensors), tendon sheath, trigger points
(shown in Figure 3.38) and nerve. Palpable
nerves in the upper limb are as follows:
- The suprascapular nerve can be palpated
along the superior border of the scapula in
the suprascapular notch
- The brachial plexus can be palpated in the
posterior triangle of the neck; it emerges at
the lower third of sternocleidomastoid
- The suprascapular nerve can be palpated
along the superior border of the scapula in
the suprascapular notch
- The dorsal scapular nerve can be palpated
medial to the medial border of the
scapula
The median nerve can be palpated over the
anterior elbow joint crease, medial to the
EXAMINATION OF THE ELBOW REGION 225
biceps tendon, also at the wrist between
palmaris longus and flexor carpi radialis
- The radial nerve can be palpated around
the spiral groove of the humerus, between
brachioradialis and flexor carpi radialis, in
the forearm and also at the wrist in the
snuff box
• Increased or decreased prominence of
bones
• Pain provoked or reduced on palpation.
Accessory movements
It is useful to use the palpation chart and movement
diagrams (or joint pictures) to record findings.
These are explained in detail in Chapter 3.
TIle clinician should note the following:
A
c
• The quality of movement
• The range of movement
• The resistance through the range and at the
end of the range of movement
• The behaviour of pain through the
range
• Any provocation of muscle spasm.
Humeroulnar joint accessory movements
Humeroulnar joint accessory movements (Fig.
9.6) are as follows (Maitland 1991):
med medial glide on olecranon or coronoid
lat lateral glide on olecranon or coronoid
caud longitudinal caudad
Comp compression.
B
o
Figure 9.6 Humeroulnar loint accessory movements. A Medial glide on the olecranon. The clinician's thigh supports the
patient's forearm and thumb pressure is directed medially on the olecranon. B Lateral glide on the olecranon. The left hand
supports the forearm while the right thumb applies a lateral glide to the olecranon. C Longitudinal caudad. The left hand
supports the forearm while the right thumb pushes downwards on the olecranon. 0 Compression. The right hand supports
underneath the elbow while the left hand pushes down through the hand and forearm with the wrist in slight ulnar deviation.
226 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Radiohumeral joint accessory movements
Radiohumeral joint accessory movements (Fig.
9.7) are as follows (Maitland 1991):
caud
- ceph
longitudinal caudad
longitudinal cephalad.
Superior radioulnar joint accessory movements
Superior radioulnar joint accessory movements
(Fig. 9.8) are as follows (Maitland 1991):
anteroposterior
posteroanterior.
Inferior radioulnar joint accessory movements
Inferior radioulnar joint accessory movements
(Fig. 9.9) are as follows (Maitland 1991):
!
t
anteroposterior
posteroanterior.
Note that each of these accessory movements
will move more than one of the joints in the
elbow complex - a medial glide on the olecranon,
for example, will cause movement at the supe-
A
rior radioulnar joint as well as the humeroulnar
joint.
For further information when examining the
accessory movements, alter the:
• Speed of force application
• Direction of the applied force
• Point of application of the applied force
• Position of the joint. In lying the elbow joint can
be placed in a variety of resting positions, such
as flexion, extension, pronation or supination.
Following accessory movements, the clinician
reassesses all asterisks (movements or tests that
have been found to reproduce the patien􀃱s
symptoms) in order to establish the effect of the
accessory movements on the patien􀃱s signs and
symptoms. This helps to prove/disprove structure(
s) at fault.
Other joints as applicable
Accessory movements can then be tested for
other joints suspected to be a source of symptoms
and, by reassessing the asterisks, the
clinician is then able to prove/ disprove the structure(
s) at fault. joints likely to be examined are
B
Figure 9.7 Radiohumeral joint accessory movements. A Longitudinal
caudad. The left hand stabilizes the upper arm while the right hand pulls the
forearm. B Longitudinal cephalad. The left hand supports underneath the
elbow white the right hand pushes down through the forearm and hand with
the wrist in slight radial deviation.
B
A
Figure 9.8 Superior radioulnar joint accessory movements.
A Anteroposterior. The patient's forearm and hand are
supported between the clinician's right arm and trunk. Thumb
pressure is then applied slowly through the soft tissue to the
anterior aspect cl lhe head of the radius. B Posteroanterior.
Thumb pressure is applied to the posterior aspect of the
head of the radius.
the cervical spine, thoracic spine, shoulder, wrist
and hand.
Mobilizations with movement (MWMs) (Mulligan
1 995)
With the patient supine, the clinician applies a
lateral glide to the ulna (Fig. 9.10). A seat belt can
be used to apply the force if preferred. An
increase in the range of movement and no pain
or reduced pain on active flexion or extension of
the elbow are positive examination findings,
indicating a mechanical joint problem.
EXAMINATION OF THE ELBOW REGION 227
Figure 9.9 Inferior radioulnar joint accessory movements anteroposterior/
posteroanterior glide. The left and right
hands each grasp the anterior and posterior aspect of the
radius and ulna. The hands then apply a force in opposite
directions to produce an anteroposterior and posteroanterior
glide.
Figure 9.10 Mobilizations with movement for elbow flexion.
The right hand supports the upper arm while the left hand
applies a lateral glide to the ulna and the palient actively
flexes the elbow,
For patients with suspected tennis elbow, the
clinician applies a lateral glide to the ulna while
the patient makes a fist. Relief of pain is a positive
finding, indicating a tracking or positional fault at
the elbow that is contributing to the soft tissue
lesion.
COMPLETION OF THE EXAMINATION
Having carried out the above tests, the examination
of the elbow region is now complete. The
subjective and physical examinations produce a
228 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Subjective examination
Body chart
. .
-
., .. : ..
. -...
􀀅
/j 􀀃 􀀄 -- 􀀅
""
Relationship of symptoms
Aggravating factors
Severe Irritable
Easmg factors
I
No pam
Figure 9.11 Elbow examination chart.
Name
Age
Date
24 hour behaviour
Function
Improvmg StatIc
Special questions
General health
Weight loss
AA
Drugs
Steroids
AntIcoagulants
X-ray
Cord symptoms
Dizzmess
HPC
PMH
SH & FH
Intensity of pam
Worsening
I
Pam as bad as It
could possibly be
Physical examination
Observation
Jomt cests
JOint Integnty tests
(medial and lateral lJgament tests)
Active and passive JOint movement
Flexion
Extension
Abduction
Adduction
Flexion/abduction
Flexton/adductlon
Extension/abductIOn
Extension/adduction
Pronation
SupinatIOn
Capsular pattern Yes No
JOint effuSion
Other JOints
Muscle tests
Muscle strength
Muscle length
Isometric muscle tests
Muscle bulk
Figure 9.11 (cont'd)
EXAMINATION OF THE ELBOW REGION 229
Neurological rests
Integnty of the nervous system
Mobility of the nervous system
DiagnostiC tests
(ulnar N, median N and radial Nl
Special tests
(thoracic oUllet. pulses, oedema)
Function
PalpatIOn
Accessory movemems
Ocher Joints
MWMs
230 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
large amount of information, which needs to be
recorded accurately and quickly. An outline
examination chart may be useful for some clinicians
and one is suggested in Figure 9.11. It is
important, however, that the clinician does not
examine in a rigid manner, simply following the
suggested sequence outlined in the chart. Each
patient presents differently and this should be
reflected in the examination process. It is vital
at this stage to highlight with an asterisk (*)
important findings frorn the exalTlinatioll. These
findings must be reassessed at, and within, subsequent
treatment sessions to evaluate the effects
of treatment on the patient's condition.
On completion of the physical examination,
the clinician should:
• Warn the patient of possible exacerbation up
to 24-48 hours following the examination.
IlEFERENCES
Clinical Standards Advisory Report 1994 Report of a CSAG
committee on bnck pain. HMSO, London
Cole J 1-1, Furness A L. Twomey L T 1988 Muscles in aclion,
an approach to manual muscle testing. Churchill
Livingstone, Edinburgh
Cyriax J 1982 Textbook of orthopaedic medicine - di
of soft tissue lesions, 8th edn. Bailliere Tindall, London
Daniels L, Worthingham C 1986 Muscle testing, techniques
of manual examination, 5th edn. W B Saunders.
Philildelphia, PA
Janda V 1994 Muscles and motor control in cervicogenic
disorders: assessment and management. In: Grant R (cd)
Physical therapy of the cervical and thoracic spine,
2nd edn. Churchill Livingstone, New York, ch lO, p 195
Kendall F P, McCreary E K, Provance P G 1 993 Muscles
testing and function, 4th edn. Williams & Wilkins,
Baltimore, MD
• Request the patient to report details on the
behaviour of the symptoms following
examination at the next attendance.
• Explain the findings of the physical
eXatnination and how these findings relate to
the subjective assessment. An attempt should
be made to clear up any misconceptions
patients may have regarding their illness or
injury.
• Evaluate the findings, formulate a clinical
diagnosis and write up a problem list.
Clinkians may find the management
planning forms shown in Figures 3.51 and
3.52 helpful in guiding them through what
is often a complex clinical reasoning
process.
• Determine the objectives of treatment.
• Devise an initial treatment plan.
Magee D J 1 992 Orthopedic phYSical assessment, 2nd cdn.
W B Saunders, Philadelphia, PA
Maitland C D 1991 Peripheral manipulation, 3rd edn.
Butlerworths, London
Morrey B F, An K N, Chao E Y S 1993 Functional evaluation
of the elbow. In: Morrey B F (ed) The elbow and its
disorders, 2nd edn. W B Smmders, Philadelphia, PA,
ch 6, p 86
Mulligan B R 1995 Manual therapy 'nags', 'snags', 'MWMs'
etc., 3rd cdn. Plant View Services, New ZC
Rcfshauge K, Cass E (cds) 1995 Musculoskelelil l
physiotherapy: clinical science and practice.
Butterworth-Heinemann, Oxford
Volz R C. Morrey B F 1993 The physical examination of
the elbow. In: Morrey B F (cd) The elbow i1nd its
disorders, 2nd ron. W 13 5.:,unders, Philadelphia, I'A,
ch 5, p 73
CHAPTER CONTENTS
Possible causes of pain and/or limitation of
movement 231
Subjective examination 232
Body chart 232
Behaviour of symptoms 232
Special questions 234
History of the present condition (HPC) 234
Past medicat history (PM H) 235
Social and family history 235
Plan of the physical examination 235
Physical examination 235
Observation 236
Joint tests 237
Muscle lests 242
Neurological tests 244
Speciat tests 245
Functional ability 245
Palpation 245
Accessory movements 246
Completion of the examination 254
Examination of the wrist
and hand
POSSIBLE CAUSES OF PAIN ANDIOR
LIMITATION OF MOVEMENT
This region includes the superior and inferior
radioulnar, radiocarpal, intercarpal,
carpometacarpal, intermetacarpal,
metacarpophalangeal and interphalangeal
joints and their surrounding soft tissues.
• Trauma
- Fracture of the radius, ulna (e.g. Co lies'
or Smith fracture), carpal or metacarpal
bones or phalanges
- Dislocation of interphalangeal joints
- Crush injuries to the hand
- Ligamentous sprain
- Muscular strain
- Tendon and tendon sheath injuries
- Digital amputations
- Peripheral nerve injuries
• Degenerative conditions - osteoarthrosis
• Inflammatory conditions - rheumatoid
arthritis
• Tenosynovitis, e.g. de Quervain's disease
• Carpal tunnel syndrome
• Guyon's canal compression
• Infections, e.g. animal or human bites
• Dupuytren's disease
• Raynaud's disease
231
232 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• Complex regional pain syndrome (reflex
sympathetic dystrophy)
• Neoplasm
• Hypermobility syndrome
• Referral of symptoms from the cervical
spine, thoracic spine, shoulder or elbow
Further details of the questions asked during the
subjective examination and the tests carried out
in the physical examination call be found in
Chapters 2 and 3 respectively.
The order of the subjective questioning and the
physical tests described below can be altered as
appropriate for the patient being examined.
SUBJECTIVE EXAMINATION
Body chart
The following information concerning the type
and area of current symptoms should be recorded
on a body chart (Fig. 2.4). In order to be
specific, it may be necessary to use an enlarged
chart of the hand and wrist.
Area of current symptoms
Be exact when mapping out the area of the symptoms.
Lesions of the joints in this region usually
produce localized symptoms over the affected
joint. Ascertain which is the worst symptom and
record where the patient feels the symptoms are
coming from.
Areas relevant to the region being examined
Clear all other areas relevant to the region being
examined, especially between areas of pain,
paraesthesia, stiffness or weakness. Mark these
unaffected areas with ticks (.I) on the body chart.
Check for symptoms in the cervical spine, thoracic
spine, shoulder and elbow.
Quality of pain
Establish the quality of the pain.
Intensity of pain
The intensity of pain can be measured using, for
example, a visual analogue scale (V AS) as shown
in the examination chart at the end of this chapter
(Fig. 10.11).
Depth of pain
Discover the patient's interpretation of the depth
of the pain.
Abnormal sensation
Check for any altered sensation (such as paraesthesia
or numbness) locally around the wrist and
hand, as well as proximally over the elbow,
shoulder and spine as appropriate. For a brief
assessment, where this is appropriate, sensation
can be limited to: index finger and thumb, for
median nerve; little finger and hypothenar eminence
for ulnar nerve; and first and second
metacarpal for radial nerve (dorsal branch).
Constant or intermittent symptoms
Ascertain the frequency of the symptoms,
whether they are constant or intermittent. If
symptoms are constant, check whether there is
variation in the intensity of the symptoms, as
constant unremitting pain may be indicative of
neoplastic disease.
Relationship of symptoms
Determine the relationship between the symptomatic
areas - do they come together or separately?
For example, the patient could have the wrist
pain without the elbow pain, or they may always
be present together.
Behaviour of symptoms
Aggravating factors
For each symptomatic area, discover what movements
and/or positions aggravate the patient's
symptoms, i.e. what brings them on (or makes
them worse), how long it takes to aggravate them
and what happens to other symptom(s) when
one symptom is produced (or made worse).
These questions help to confirm the relationship
between the symptoms.
The clinician also asks the patient about theoretically
known aggravating factors for structures
that could be a source of the symptoms.
Common aggravating factors for the wrist and
hand are flexion and extension of the wrist,
resisted grips (both pinch and power) and grips
with pronation and supination, and weight-bearing.
Cold intolerance commonly occurs after
nerve injury, causing pain and vascular changes
in cold weather. Aggravating factors for other
joints, which may need to be queried if any of
these joints is suspected to be a source of the
symptoms, are shown in Table 2.3.
Easing factors
For each symptomatic area, the clinician asks what
movements andlor positions ease the patient's
symptoms, how long it takes to ease them and
what happens to other symptom(s) when one
symptom is relieved. These questions help to
confirm the relationship between the symptoms.
The clinician asks the patient about theoretically
known easing factors for structures that could
be a source of the symptoms. For example, symptoms
from the wrist may be relieved by pulling
the hand away from the forearm (i.e. distraction),
whereas symptoms from the neural tissue may
be eased by certain cervical positions. The clinician
should analyse the position or movement
that eases the symptoms in order to help determine
the structure at fault.
Severity and irritability of symptoms
Severity and irritability are used to identify
patients who will not be able to tolerate a full
physical examination. If the patient is able to sustain
a poSition that reproduces their symptoms,
the condition is considered non·severe and overpressures
can be applied in the physical examination.
If the patient is unable to sustain the
position, the condition is considered severe and
no overpressures should be attempted.
EXAMINATION OF THE WRIST AND HAND 233
If symptoms ease immediately following provocation,
the condition is considered to be non-irritable
and all movements can be tested in the physical
examination. If the symptoms take a few minutes
to ease then the symptoms are irritable and only a
few movements should be attempted to avoid
exacerbating the patient's symptoms.
Twenty-four hour behaviour of symptoms
The clinician determines the 24-hour behaviour
of symptoms by asking questions about night,
morning and evening symptoms.
Night symptoms. The following questions
should be asked:
• Do you have any difficulty getting to sleep?
• What position is most comfortablel
uncomfortable?
• What is your normal sleeping position?
• What is your present sleeping position?
• Do your symptom(s) wake you at night? If so,
- Which symptom(s)?
- How many times in the past week?
- How many times in a night?
- How long does it take to get back to
sleep?
• How many and what type of pillows are
used?
Morning and evening symptoms. The clinician
determines the pattern of the symptoms first thing
in the morning, through the day and at the end of
the day.
Function
The clinician ascertains how the symptoms vary
according to various daily activities, such as:
• Static and active postures, e.g. leaning on the
forearm or hand, gripping, turning a key in a
lock, ironing, dusting, driving, lifting,
carrying, etc. Establish whether the patient is
left- or right-handed.
• Work, sport and social activities that may be
relevant to the wrist and hand. It is important
to consider the repetitive nature of the job and
the frequency of tasks, as well as the stress of
time restraints. Hand grip tends to increase
234 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
and posture deteriorates with stress. The
clinician should obtain details of the patient's
training regime for any sporting activities.
Detailed information about each of the above
activities is useful to help determine the structure
at fault and to identify clearly the functional
restrictions. This information can be used to
determine the aims of treatment and any advice
that may be required. The most important functional
restrictions are highlighted with asterisks
(II-) and reassessed at subsequent treatment sessions
to evaluate treatment intervention.
Stage of the condition
In order to determine the stage of the condition,
the clinician asks whether the symptoms are
getting better, getting worse or remaining
unchanged.
Special questions
Special questions must always be asked, as they
may identify certain precautions or absolute
contraindications to further examination and
treatment techniques (Table 2.4). As mentioned
in Chapter 2, the clinician mllst differentiate
between conditions that are suitable for conservative
management and systemic, neoplastic
and other non-neuromusculoskeletal conditions,
which require referral to a medical practitioner.
The following information should be obtained
routinely for all patients.
General health. The clinician ascertains the
state of the patient's general health, and finds out
if the patient suffers from any malaise, fatigue,
fever, nausea or vomiting, stress, anxiety or
depression.
Weight loss. Has the patient noticed any recent
unexplained weight loss?
Rheumatoid or osteoarthritis. Has the patient
(or a member of his/her family) been diagnosed
as having rheumatoid arthritis?
Dupuytren's disease. Has the patient or anyone
in their family been diagnosed with Dupuytren's
disease? Has the patient noticed nodules in the
palm?
Drug therapy. What drugs are being taken by
the patient? Has the patient ever been prescribed
long-term (6 months or more) medication/
steroids? Has the patient been taking anticoagulants
recently?
Diabetes. Has the patient been diagnosed as
having diabetes? How long ago was it diagnosed?
Healing of tissues is likely to be slower in
the presence of this disease.
X-ray and medical imaging. Has the patient
been X-rayed or had any other medical tests
recently? X-rays are vital in hand or joint fractures,
dislocations and joint disease. Joint and
bone position give information that will help
guide rehabilitation and indicate likely prognosis.
Imaging in theatre of internal fixation and
bone grafts is an excellent method of educating
the patient and the medical staff. Routine spinal
X-rays are no longer considered necessary prior
to conservative treatment as they only identify
the normal age-related degenerative changes,
which do not necessarily correlate with the
patien􀃚s symptoms (Clinical Standards
Advisory Report 1994). The medical tests may
include blood tests, magnetic resonance imaging,
myelography, discography or a bone scan. For
further information on these tests, the reader is
referred to Refshauge & Gass (1995).
Neurological symptoms. Has the patient experienced
any tingling, pins and needles, pain or
hypersensitivity in the hand? Are these symptoms
unilateral or bilateral? Has the patient
noticed any weakness in the hand? Has s/he
experienced symptoms of spinal cord compression,
which are bilateral tingling in the hands or
feet and/ or disturbance of gait?
History of the present condition
(HPC)
For trauma cases, the clinician should ask how
(e.g. knife, glass, assault, accidental, selfinflicted)
and where the accident occurred. For
each symptomatic area, the clinician should discover
how long the symptom has been present,
whether there was a sudden or slow onset and
whether there was a known cause that provoked
the onset of the symptom. If the onset was slow,
the clinician should find out if there has been any
change in the patien􀃄s life-style, e.g. a new job or
hobby or a change in sporting activity, that may
have contributed to the patien􀃄s condition. To
confirm the relationship of symptoms, the clinician
asks what happened to other symptoms
when each symptom began.
Past medical history ( PMH)
The following information should be obtained
from the patient and/or the medical notes:
o The details of any relevant medical
history.
o The history of any previous attacks: how
many episodes, when were they, what was
the cause, what was the duration of each
episode and did the patient fully recover
between episodes? If there have been no
previous attacks, has the patient had any
episodes of stiffness in the cervical spine,
thoracic spine, shoulder, elbow, wrist, hand
or any other relevant region? Check for a
history of trauma or recurrent minor
trauma.
o Ascertain the results of any past treatment for
the same or similar problem. Past treatment
records may be obtained for further
information.
Social and family history
Social and family history that is relevant to the
onset and progression of the patien􀃄s problem
should be recorded. Examples of relevant information
might include the age of the patient,
employment, the home situation, any dependants
and details of any leisure activities. Particularly
in trauma cases, check the working
situation, financial situation and any potential
compensation claims. Factors from this information
may indicate direct and/or indirect mechanical
influences on the wrist and hand. In order
to treat the patient appropriately, it is important
that the condition is managed within the
context of the patien􀃄s social and work environment.
EXAMINATION OF THE WRIST AND HAND 235
Plan of the physical examination
When all this information has been collected, the
subjective examination is complete. It is useful at
this stage to highlight with asterisks ('), for ease
of reference, important findings and particularly
one or more functional restrictions. These can
then be re-examined at subsequent treatment
sessions to evaluate treahnent intervention.
In order to plan the physical examination, the
following hypotheses need to be developed from
the subjective examination:
• The structures that must be examined as a
possible cause of the symptoms, e.g. wrist and
hand, cervical spine, thoracic spine, shoulder,
elbow, radioulnar joints, soft tissues, muscles
and neural tissues. Often it is not possible to
examine fully at the first attendance and so
examination of the structures must be
prioritized over subsequent treatment
sessions.
o Other factors that need to be examined, e.g.
working and everyday postures, muscle
weakness and sporting technique, such as
service and strokes for tennis, smash for
badminton, etc.
• An assessment of the patient's condition in
terms of severity, irritability and nature (SIN):
- Severity of the condition: if severe, no
overpressures are applied
Irritability of the condition: if irritable,
fewer movements are carried out
Nature of the condition: the physical
examination may require caution in certain
conditions such as recent fracture, trauma,
steroid therapy or rheumatoid arthritis;
there may also be certain contra indications
to further examination and treatment, e.g.
symptoms of cord compression.
A physical planning form can be useful for
clinicians to help guide them through the clinical
reasoning process (Figs 2.1 1 & 2.12).
PHYSICAL EXAMINATION
Throughout the physical examination, the clinician
must aim to find physical tests that repro236
NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
duce each of the patient's symptoms. Each of
these positive tests is highlighted by an asterisk
(*) and used to determine the value of treatment
intervention within and between treatment sessions.
The order and detail of the physical tests
described below need to be appropriate to the
patient being examined. Some tests will be irrelevant,
others will only need to be carried out
briefly, while others will need to be fully investigated.
Observation
Informal observation
The clinician should observe the patient in
dynamic and static situations; the quality of
movement is noted, as are the postural characteristics
and facial expression. Informal observation
will have begun from the moment the clinician
begins the subjective examination and will continue
to the end of the physical examination.
Formal observation
Observation of posture. The clinician observes
the bony and soft tissue contours of the elbow,
wrist and hand, as well as the patient's posture in
Sitting and standing, noting the posture of the
head and neck, thoracic spine and shoulders.
Look for abnormal posture of the hand such as
dropped wrist and fingers in radial nerve palsy,
clawing of the ulnar two fingers in ulnar nerve
palsy, or adducted thumb in median nerve palsy.
Any asymmetry should be paSSively corrected to
determine its relevance to the patient' problem.
Observation of muscle form. The clinician examines
the muscle bulk and muscle tone of the
patient, comparing left and right sides. Check for
wasting of specific muscles such as the first dorsal
interosseous muscle supplied by the ulnar nerve,
opponens pollicis supplied by the median nerve. It
must be remembered that handedness and level
and frequency of physical activity may well produce
differences in muscle bulk between sides.
Observation 01 soft tissues. The clinician
observes the colour of the patient's skin, any
swelling, increased hair growth on the hand, brittie
fmgernails, infection of the nail bed, sweating
or dry palm, shiny skin, scars and bony deformities,
and takes cues for further examination. These
changes could be indicative of a peripheral nerve
injury, peripheral vascular disease, diabetes mellitus,
Raynaud's disease, complex regional pain
syndrome (previously reflex sympathetic dystrophy)
or shoulder-hand syndrome (Magee 1992).
Common deformities of the hand include the
following:
• Swan-neck deformity of fingers or thumbthe
proximal interphalangeal joint (PIP) is
hyperextended and the distal interphalangeal
joint (DIP)) is flexed (Fig. 10.1). It has a variety
of causes; see Eckhaus (1993) for further
details.
• Boutonniere deformity of fingers or thumbthe
PIP) is flexed and the DIP) is
hyperextended (Fig. 10.2). The central slip of
the extensor tendon is damaged and the
lateral bands displace volarly (Eddington
1993).
• Claw hand - the little and ring fingers are
hyperextended at the metacarpophalangeal
joint (MCP)) and flexed at the interphalangeal
joints ([P)s). This condition is due to ulnar
nerve palsy.
• Mallet finger - rupture of the terminal
extensor tendon at the DIP).
• Clinodactyly - congenital radial deviation of
the distal joints of the fingers, most commonly
seen in the little finger.
Reduced tension at
terminal tendon
Increased tension
of central slip
Dorsal displacement
of lateral bands
Figure 10.1 Swan neck-deformity. (From Eckhaus 1993, with
permission.)
Increased tension of
terminal tendon
Rupture of
central slip
Displacement
of lateral band
Figure 10.2 Boutonniere deformity. (From Eddington 1993,
with permission.)
• Camptodactyly - congenital flexion
contracture at the PIPj and DIP), commonly
seen in the little finger.
• The presence of Heberden's nodes over the
dorsum of the DlPjs is indicative of
osteoarthritis, and Bouchard's nodes over the
dorsum of the PLPjs are indicative of
rheumatoid arthritis. Club nails, where there
is excessive soft tissue under the nail, are
indicative of respi.ratory Observation of the patient's attitudes and feelings.
The age, gender and ethnicity of patients
and their cultural, occupational and social backgrounds
will all affect their attitudes and feelings
towards themselves, their condition and the clinician.
Hands are particularly visual and are used
regularly to show feelings, in conversation and
for function. The clinician needs to be aware of
and sensitive to these attitudes, and to empathize
and communicate appropriately so as to develop
a rapport with the patient and thereby enhance
the patient's compliance with the treatment.
Joint tests
joint tests include integrity tests, active and passive
physiological movements of the elbow jOint complex
and other relevant joints, and measurement of
any joint effusion. Passive accessory movements
complete the joint tests and are described towards
the end of the physical examination.
EXAMINATION OF THE WRIST AND HAND 237
Joint integrity tests
At the wrist, ligamentous instability can occur
between the scaphoid and lunate, the lunate and
triquetrum, and the triquetrum and hamate
(midcarpal). These instabilities need to be diagnosed
by passive movement tests as routine radiographs
are normal (Taleisnik 1988).
Watson's scaphoid shift test. The clinician
applies an anterior glide to the scaphoid while
passively moving the wrist from a position of
ulnar deviation and slight extension to radial
deviation and slight flexion. Posterior subluxation
of the scaphoid and/or reproduction of the
patient's pain indicate instability of the scaphoid
(Watson et aI1988) .
Lunotriquetral ballottement test. This tests for
instability at the joint between the lunate and triquetral
bones. Excessive movement, crepitus or
pain with anterior and posterior glide of the
lunate on the triquetrum indicates a positive test
(Linscheid & Dobyns 1987).
Midcarpal test. The exanliner applies an anteroposterior
force to the scaphoid while distracting
and flexing the wrist (Louis et al 1984).
Reproduction of the patient's pain indicates a
positive test, suggesting instability between the
radius, scaphoid, lunate and capitate.
Ligamentous instability test for the joints of the
thumb and fingers. Excessive movement when an
abduction or adduction force is applied to the
joint is indicative of joint instability due to a laxity
of the collateral ligaments (Magee 1992).
Active and passive physiological joint movement
For both active and passive physiological jOint
movement, the clinician should note the following:
• The quality of movement
• The range of movement
• The behaviour of pain through the range of
movement
• The resistance through the range of movement
and at the end of the range of movement
• Any provocation of muscle spasm.
A movement diagram can be used to depict
this information.
238 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Ai
Aiv
Bii
Aii Aiii
Bi
Figure 10.3 Overpressures to the wrist and hand.
A Radiocarpal joint. (i) Flexion. The wrist and hand is
grasped by both hands and taken into flexion. (ii) Extension.
The right hand supports the patient's forearm and the left
hand takes the wrist and hand into extension. (iii) Radial
deviation. The right hand supports just proximal to the wrist
joint while the left hand moves the wrist into radial deviation.
(iv) Ulnar deviation. The right hand supports just proximal 10
the wrist joint while the left hand moves the wrist into ulnar
deviation.
S Carpometacarpal joint of thumb. For all these movements,
the hands are placed immediately proximal and distal 10 the
joint line. (i) Flexion. The right hand supports the carpus
while the left hand takes the metacarpal into flexion.
(ii) Extension. The right hand supports the carpus while the
left hand takes the metacarpal into extension. (iii) Abduction
and adduction. The right hand supports the carpus while the
left hand takes the metacarpal into abduction and adduction.
(iv) Opposition. The right hand supports the carpus while the
left hand takes the metacarpal across the palm into
opposition.
Biii
Ci
Di
Oiii
EXAMINATION OF THE WRIST AND HAND 239
Slv
Gii
Oii
Figur. 10.3 (cont'd)
C Distal intermetacarpal joints. (i) Horizontal flexion. The left
thumb is placed in the centre of the palm at the level of the
metacarpal heads. The right hand cups around the back of
the metacarpal heads and moves them into horizontal
flexion. (ii) Horizontal extension. The thumbs are placed in
the centre of the dorsum of the palm al the level of the
metacarpal heads. The lingers wrap around the anterior
aspect of the hand and pull the metacarpal heads Inlo
horizontal extension.
o Metacarpophalangeal joints. (i) Flexion. The left hand
supports the metacarpal while the right hand lakes the
proximal phalanx into flexion. (ii) Extension. The left hand
supports the metacarpal while the right hand takes the
proximal phalanx into extension. (iii) Abduction and
adduction. The lett hand supports the metacarpal while the
right hand takes the proximal phalanx into abduction and
adduction.
240 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Ei
Eli
Figure 1 0.3 (conrd)
E Proximal and distal interphalangeal joints. (I) Flexion. The
left hand supports the metacarpophalangeal joint in
extension while the right hand takes the proximal
interphalangeal joint into flexion. (ii) Extension. The left hand
supports the metacarpophalangeal joint in extension while
the right hand lakes the proximal interphalangeal joint into
extension.
Active physiological movements with overpressure.
The active movements with overpressure
listed in Figure 10.3 are tested with the patient in
supine or sitting. Movements are carried out on
the left and right sides.
The clinician establishes the patient's symptoms
at rest, prior to each movement, and COfrects
any movement deviation to determine its
relevance to the patient's symptoms.
The following joints should be tested as indicated:
• Superior and inferior radioulnar joints
- Pronation
- Supination
• Radiocarpal joint
- Flexion
- Extension
- Radial deviation
- Ulnar deviation
• Carpometacarpal (CMC) and
metacarpophalangeal joints of thumb (Fig.
10.4)
- Flexion
- Extension
- Abduction
- Adduction
Opposition
• Distal intermetacarpal jOints
- Horizontal flexion
- Horizontal extension
• Metacarpophalangeal joints (of the fingers)MCP)
s
- Flexion
- Extension
- Adduction
- Abduction
• Proximal and distal interphalangeal joints
(PIP)s and DlP)s)
- Flexion
- Extension.

Note: In flexion the longitudinal axis of each
finger should aim towards the scaphoid bone.
Modifications to the examination of active physiological
movements. For further information
about active range of movement, the following
can be carried out:
• Movements can be repeated several times
• The speed of the movement can be altered
• Movements can be combined - two or more
physiological movements can be combined,
e.g. at the radiocarpal joint, flexion and
extension can be combined with radial or
ulnar deviation
• Compression or distraction can be added
• Movements can be sustained
• The injuring movement, i.e. the movement
that occurred at the time of the injury, can be
tested
• Differentiation tests.
Various differentiation tests ( Maitland 1991) can
be performed; the choice depends on the patient's
signs and symptoms. For example, when supination
reproduces the patient's wrist symptoms, difA
First
metacarpal
B
EXAMINATION OF THE WRIST AND HAND 241
Figure 10.4 Movement at the carpometacarpal joint of the thumb. (From Fass & Philips 1987, with permission.)
A The arrows illustrate the multiple planes of movement that occur at the carpometacarpal joint of the thumb. B The arrow
illustrates the movement of the thumb from a position of adduction against the second metacarpal to a position of extension and
abduction away from the hand and fingers. It can then be rotated into positions of opposition and flexion.
ferentiation between the inferior radioulnar joint
and the radiocarpal joint may be required. The
clinician can passively move the foreanl1 into
supination to the point in the range where symptoms
are produced. The clinician then increases
supination at the inferior radioulnar jOint by
applying a supination force to the distal radius and
ulna (Fig. 10.5). If symptoms increase, this suggests
that the symptoms are emanating from the inferior
radioulnar joint and this may be confinned by
establishing that increasing supination of the hand
has no effect on the symptoms. The converse
would occur if the symptoms are emanating from
the radiocarpal joint.
Capsular pattern. Capsular patterns for these joints
(Cyriax 1 982) are as follows:

• Inferior radioulnar joint - full range but pain
at extremes of range
• Wrist - flexion and extension equally Limited
• Carpometacarpal joint of the thumb - full
flexion, more limited abduction than extension
• Thumb and finger joints - more limitation of
flexion than of extension.
Passive physiological joint movement. All the
active movements described above can be examined
passively with the patient usually in sitting or
Figure 10.5 Differentiation between the inferior radioulnar
joint and the radiocarpal joint. The right hand supinates the
hand and forearm and maintains this position while the left
hand grasps the radius and ulna and increases supination of
the forearm.
supine, comparing left and right sides. A comparison
of the response of symptoms to the active and
passive movements can help to determine
whether the structure at fault is non-contractile
242 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
(articular) or contractile (extra-articular) (Cyriax
1982). If the lesion is non-contractile, such as ligament,
then active and passive movements will be
painful and/or restricted in the same direction. If
the lesion is in a contractile tissue (i.e. muscle),
active and passive movements are painful and/or
restricted in opposite d irections.
Other joints
Other joints need to be examined to prove or disprove
their relevance to the patient's condition.
The joints most likely to be a source of the symptoms
are the cervical spine, thoracic spine, shoulder
and elbow joint complexes. These joints can
be tested fully (see relevant chapter) or, if they
are not suspected to be a source of symptoms, the
relevant clearing tests can be used (Table 10.1).
Joint effusion
Measure the circumference of the joint using a
tape measure and compare left and right sides.
Muscle tests
Muscle tests include examining muscle strength,
length, isometric contraction and muscle bulk.
Muscle strength
Grip strength, comparing left and right sides, can
be measured using a dynamometer. The second
Table 10.1 Clearing tests
Joint Physiological Accessory
movement movement
Cervical spine Quadrants AU movements
Thoracic spine Rotation and quadrants All movements
Shoulder joint Flexion and hand behind
back
Elbow joint Extension,
extension/abduction,
extension/adduction and
pronation/supination
Wrist joint Flexion/extension and
radial/ulnar deviation
handle position is recommended and three trials
are carried out recording the mean value (American
Society for Surgery of the Hand 1990) with the
wrist between 0° and 15° of extension (Pryce 1980).
Pinch strength can be measured using a pincl1
meter, again repeating the test three times and taking
the mean value. Measure and record pure
pinch, lateral key pinch and tripod grip separately.
Manual muscle testing may be carried out for
the following muscle groups: •
• Elbow - flexors and extensors
• Forearm - pronators and supinators
• Wrist joint - flexors, extensors, radial
deviators and ulnar deviators
• Thenar eminence - flexors, extensors,
adductors, abductors and opposition
• Hypothenar eminence - flexors, extensors,
adductors, abductors and opposition
• Finger - flexors, extensors, abductors and
adductors.
For details of these general tests the reader is
directed to Daniels & Worthingham (1986), Cole
et al ( 1988) or Kendall et al (1993).
It may be necessary to test the strength of individual
muscles around the shoulder, which are
prone to become weak (Janda 1994). These muscles
and a description of the test for muscle
strength are given in Chapter 3.
Muscle length
Tenodesis effect. Tests the balance in the
extrinsic flexor and extensor muscle length. With
the wrist flexed, the fingers and thumb will
extend and with the wrist extended, the fingers
will flex towards the palm and the thumb oppose
towards the index finger.
Intrinsic muscle tightness. In a normal hand, the
clinician is able to passively maintain Mep) in
extension and then passively flex the IP)s. Intrinsic
muscle tightness is where there is increased range
of passive rp) flexion when the MCP)s are positioned
in flexion. Further details on intrinsic muscle
tighh1ess can be found in Aulicino (1995).
Extrinsic muscle tightness. Extensor tightness -
the clinician compares the range of passive IP)
flexion with the MCP)s positioned in flexion and
then in extension. Extrinsic tightness is when there
is greater range of IPj nexion with the MCPjs in
extension. F1exor tighh1esS - the clinician compares
the range of passive IPj extension with the
MCPjs positioned in nexion and then in extension.
Extrinsic tightness is where there is a greater range
of extension with the MCPjs in nexion.
Length of individual muscles. It may be necessary
to test the length of individual muscles
around the shoulder that are prone to become
short Oanda 1994). These muscles and a description
of the test for muscle length are given in
Chapter 3.
Isometric muscle testing
Manual muscle testing is very useful in differential
diagnosis of nerve compression trauma.
Following carpal tunnel compression, for example,
damage to the median nerve should be checked by
testing the isometric strength of opponens pollicis
and abductor polHcis brevis. Test forearm pronation
and supination, wrist flexion, extension, radial
and ulnar deviation, finger and thumb flexion,
extension, abduction and adduction and thumb
opposition in resting position and, if indicated, in
different parts of the physiological range. In addition
the clinician observes the quality of the muscle
contraction to hold this position (this can be done
with the patient's eyes shut). The patient may, for
example, be unable to prevent the joint from moving
or may hold with excessive muscle activity;
either of these circumstances would suggest a neuromuscular
dysfunction.
Muscle bulk
Measure the circumference of the forearm muscle
bulk with a tape measure and compare left
and right sides. Remember that there may be
some difference between dominant and nOI1-
dominant muscle bulk due to functional use of
the hands.
Other diagnostic tests
Sweater finger sign test. Loss of distal interphalangeal
joint flexion when a fist is made is a posi-
EXAMINATION OF THE WRIST AND HAND 243
tive test indicating a ruptured f]exor digitorum
profundus tendon (Magee 1992).
Finkelstein test for de Quervain's disease. The
patient makes a fist with the thumb inside the
fingers, and passive ulnar deviation of the wrist
is added by the clinician (Fig. 10.6) (Magee 1992).
Reproduction of the patient's pain is indicative of
de Quervain's disease (tenosynovitis of the
abductor pollicis longus and extensor pollicis
brevis tendons).
Linburg's sign. This tests for tendinitis at the
interconnection between flexor pollicis longus
and the nexor indices (Magee 1992). The thumb
is nexed on to the hypothenar eminence and the
index finger is extended. Limited range of index
finger extension is a positive test.
Test for flexor digitorum superficialis (FDS). The
clinician holds all of any three fingers in extension
and asks the patient to actively nex the
MCPj and PIPj of the remaining finger. The DIPj
should be nail as the FDP has been immobilized.
If the FDS is inactive, the finger will nex strongly
at the DI Pj as well as at the PIPj and MCP), indicating
activity of FDP. If the finger does not flex
at all, neither flexor is active. Be aware that a proportion
of the population do not have an effective
FDS to the little finger, so the test is then
invalidated for this digit (Austin et aI 1989).
Figure 10.6 Finkelstein test. The left hand supports the
forearm while the right hand passively moves the wrist into
ulnar deviation.
244 NEUAOMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Tennis/golfer's elbow. The clinician may need
to test for these (described in Ch. 9).
Neurological tests
Neurological examination involves examining the
integrity of the nervous system, the mobility of the
nervous system and specific diagnostic tests.
Integrity of the nervous system
The integrity of the nervous system is tested if the
clinician suspects that the symptoms are emanating
from the spine or from a peripheral nerve.
Dermatomes/peripheral nerves. Light touch and
pain sensation of the upper limb are tested using
cotton wool and pinprick respectively, as
described in Chapter 3. Following trauma or
compression to peripheral nerves, it is vital to
assess the cutaneous sensation, looking at temperature
sense, vibration, protective sensation,
deep pressure to light touch, proprioception and
stereognosis. The use of monofilaments and
other tests are described in Chapter 3. A knowledge
of the cutaneous distribution of nerve roots
(derma tomes) and peripheral nerves enables the
clinician to distinguish the sensory loss due to a
root lesion from that due to a peripheral nerve
lesion. The cutaneous nerve distribution and dermatome
areas are shown in Figure 3.20.
Myotomes/perlpheral nerves. The following
myotomes are tested (Fig. 3.26):
• CS - shoulder abduction
• C6 - elbow flexion
• C7 - elbow extension
• C8 - thumb extension
• Tl - finger add uction.
A working knowledge of the muscular distribution
of nerve roots (myotomes) and peripheral
nerves enables the clinician to distinguish the
motor loss due to a root lesion from that due to a
peripheral nerve lesion. The peripheral nerve
distributions are shown in Figures 3.23 and 3.24.
Reflex testing. The following deep tendon
reflexes are tested (Fig. 3.28):
• C5-6 - biceps
• C7 - triceps and brachioradialis.
Mobility of the nervous system
The upper limb tension tests (LJL TT) may be carried
out in order to ascertain the degree to which
neural tissue is responSible for the production of
the patient's symptom(s). These tests are
described in detail in Chapter 3.
Other diagnostic tests for peripheral nerves
Tine!'s sign (Tubiana et al 1 998). This is used to
determine the first detectable sign of nerve
regeneration or of nerve damage. The cl􀆫nician
taps from distal to proximal along the line of the
nerve, until the patient feels a 'pins and needles'
sensation peripherally in the nerve distribution.
The most distal point of pins and needles sensation
indicates the furthest point of axonal regeneration,
or of compression of a nerve. Tine!'s sign
is not always accurate (Tubiana et al 1998) and
should be used in conjunction with other tests
such as pain, temperature, vibration and, at a
later stage of regeneration, monofilaments, EMG
and two-point discrimination.
Median nerve. A common condition affecting
the median nerve is carpal tunnel syndrome and
this can be tested as follows:
Phalen's wrist flexion test (American Society for
Surgery of the Hand 1 990). 1 minute sustained
bilateral wrist nexion producing paraesthesia in
the distribution of the median nerve indicates a
positive test.
Reverse Phalen's test (Linscheid & Dobyns 1 987).
The patient makes a fist with the wrist in extension
and the clinician applies pressure over the
carpal tunnel for 1 minute. Paraesthesia in the
distribution of the median nerve indicates a positive
test.
Ulnar nerve.
Froment's sign for ulnar nerve paralysis (Magee
1 992). The patient holds a piece of paper between
the index finger and thumb in a lateral key grip,
and the clinician attempts to pull it away. In ulnar
nerve paralysiS, flexion at the IPJ of the thumb due
to paralysis of adductor pollicis (Froment's sign)
and clawing of the little and ring fingers is apparent
as a result of paralysis of the interossei and
lumbrical muscles and the unopposed action of
the extrinsic extensors and flexors.
Special tests
In the case of the wrist and hand, the special tests
are vnsclilar tests.
If the circulation is suspected of being compromised,
the pulses of the radial and ulnar arteries
are palpated at the wrist.
Allen test for the radial and ulnar arteries at the
wrist (American Society for Surgery of the Hand 1 990).
The clinician applies pressure to the radial and
ulnar arteries at the wrist and the patient is then
asked to open and close the hand a few times and
then to keep it open. The patency of each artery is
tested by releasing the pressure over the radial and
then the ulnar arteries. The hand should flush
within 5 seconds on release of the pressure.
Tests for thoracic outtet syndrome. These have
been described in Chapter 8.
Hand volume test. This can be used to measure
swelling of the hand. A volumeter is used and a
difference of 30-50 ml between one measurement
and the next indicates significant hand
swelling (Bell-Krotoski et al 1995). The clinician
may also measure oedema at each joint or in the
forearm using a tape measure and comparing
affected and unaffected sides.
Functional ability
Some functional ability has already been tested
by the general observation of the patient during
the subjective and physical examinations, e.g. the
postures adopted during the subjective examination
and the ease or difficulty of undressing prior
to the examination. Any further functional testing
can be carried out at this point in the examination
and may include various activities of the
trpper limb such as using a computer, handling
tools, writing, etc. Clues for appropriate tests can
be obtained from the subjective examination
findings, particularly aggravating factors.
Functional testing of the hand is very important
and can include assessment of the following:
• Ability to perform various power grips: hook,
cylinder, fist and spherical span
• Ability to perform various precision (or pinch)
grips: pulp pinch, tip-to-tip pinch, tripod
pinch and lateral key grip
EXAMINATION OF THE WRIST AND HAND 245
• General functional activities involving the
hand, such as fastening a button, tying a
shoelace, writing, etc.
I t is important to measure dexterity and function
as two different aspects. Dexterity relates to
fine manipulative tasks carried out at speed,
whereas function is the combination of all
aspects of the hand, including sensibility, movement
and cognitive ability.
Common documented dexterity tests are as
follows:
The Purdue pegboard test (Blair et al 1 987). A
timed test measuring fine coordination of the
hand with a series of unilateral and bilateral
standardized tests using pegs and washers.
Nine-hole peg test (Totten & Flinn-Wagner 1 992).
A simple timed test placing nine pegs in nine
holes. Excellent for children or those with cognitive
difficulties.
Minnesota rate of manipulation test (Totten &
Flinn-Wagner 1992). Measures gross coordination
and dexterity. Used in work assessment for
arm-hand dexterity.
Moberg pick up test (Moberg 1 958). The test uses
nine standardized everyday objects. Each is picked
up as quickly as possible and placed in a pot, first
with the eyes open and then with eyes closed. This
tests both dexterity and functional sensation.
Function tests may be developed and standardized
within each clinical unit so long as they
are repeatable and measurable. Other tests
include:
Jebson-Taylor hand function test (Jebson et al
1 969). Requires limited upper extremity coordination.
There are seven functional subtests such as
turning over a card, writing and simulated eating.
Palpation
The elbow region is palpated, as well as the cervical
spine and thoracic spine, shoulder, wrist
and hand as appropriate. It is useful to record
palpation findings on a body chart (see Fig. 2.4)
and/or palpation chart (Fig. 3.37).
The clinician should note the following:
• The temperature of the area
• Localized increased skin moisture
246 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• The presence of oedema or effusion
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules and scar tissue
• The presence or elicitation of any muscle
spasm
• Tenderness of bone, ligaments, muscle,
tendon (forearm flexors and extensors and
superficial tendons around the wrist), tendon
sheath, trigger points (shown in Figure 3.38)
and nerve. Palpable nerves in the upper limb
are as follows:
- The suprascapular nerve can be palpated
along the superior border of the scapula in
the suprascapular notch
- The brachial plexus can be palpated in the
posterior triangle of the neck; it emerges at
the lower third of sternocleidomastoid
- The suprascapular nerve can be palpated
along the superior border of the scapula in
the suprascapular notch
- The dorsal scapular nerve can be palpated
medial to the medial border of the
scapula
- The median nerve can be palpated over the
anterior elbow joint crease, medial to the
biceps tendon, also at the wrist between
palmariS longus and flexor carpi radialis
- The radial nerve can be palpated around
the spiral groove of the humerus, between
brachioradialis and flexor carpi radialis, in
the forearm and also at the wrist in the
snuffbox
• Increased or decreased prominence of bones
• Pain provoked or reduced on palpation.
Accessory movements
It is useful to use the palpation chart and movement
diagrams (or joint pictures) to record findings.
These are explained in detail in Chapter 3.
The clinician should note the following:
• The quality of movement
• The range of movement
• The resistance through the range and at the
end of the range of movement
• The behaviour of pain through the range
• Any provocation of muscle spasrn.
Wrist and hand accessory movements
Wrist and hand accessory movements (Fig. 10.7)
are as follows (Maitland 1991):
• Rndiocarpnl joil/t
anteroposterior
posteroanterior
med medial transverse
lat lateral transverse
ceph longitudinal cephalad
caud longitudinal caudad.
• II/tercnrpnl jOil/ts
anteroposterior
posteroanterior
AP IPA gliding
H F horizontal flexion
HE horizontal extension
ceph longitudinal cephalad
caud longitudinal caudad.
• Pisotriql/etral joil/t
med
lat
ceph
caud
Dist
medial transverse
lateral transverse
longitudinal cephalad
longitudinal caudad
distraction.
• Cnrpometncnrpnl joil/ts
:>
c:
- Fingers
med
lat
anteroposterior
posteroanterior
medial transverse
lateral transverse
medial rotation
lateral rotation.
- Thumb
anteroposterior
posteroanterior
med medial transverse
lat lateral transverse
ceph longitudinal cephalad
caud longitudinal caudad
medial rotation
lateral rotation.
Ai
Aiii
Bi
Figure 10.7 Wrist and hand accessory movements.
EXAMINATION OF THE WRIST AND HAND 247
Aii
Aiv
81i
" Radiocarpal joint. (i) Anteroposterior and posteroanterior. The left hand grasps around the distal end of the radius and ulna
and the right grasps the hand al the level of the proximal end of the metacarpals. The right hand then glides the patient's hand
anteriorly and then posteriorly. (ii) Medial and lateral transverse. The hands grasp around the distal radius and ulna and
proximal end 01 the metacarpals. The right hand then glides the patient's hand medially and laterally. (iii) Longitudinal caudad.
The hands grasp around the distal radius and ulna and the proximal end of the metacarpals. The right hand then pulls the hand
away from the wrist. (iv) Longitudinal cephalad. The left hand grasps around Ihe distal radius and ulna and the right hand
applies a longitudinal force to the wrist through the heel of the hand.
B Intercarpal joints. (i) Anteroposterior and posteroanterior. Thumb pressure can be applied 10 the anterior or posterior aspect of
each carpal bone to produce an anteroposterior or posteroanterior movement respectively. A posteroanterior pressure to the
lunate is shown here. (ii) Horizontal flexion. The left thumb is placed in the centre of the anterior aspect of the wrist and the right
hand cups around the carpus to produce horizontal flexion.
248 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Ci
Di
Blv
Cii
Dil
Figure 1 0.78 (cont'dJ (iii) Horizontal extension. The thumbs are placed in the centre of the posterior aspect of the wrist and
the fingers wrap around the anterior aspect of the carpus to produce horizontal extension. (iv) Longitudinal cephalad and
caudad. The left hand grasps around the distal end of the radius and ulna and the right grasps the hand at the level of the
proximal end of the metacarpals. The left hand then pushes the hand towards the wrist (longitudinal cephalad) and away from
the wrist (longitudinal caudad).
C Pisotriquetral joint. (i) Medial and lateral transverse. and longitudinal caudad and cephalad. The pisiform is pinched between
the index and thumb of the left hand and moved in medial, lateral and longitudinal caudad and cephalad directions while the
right hand stabilizes the triquetrum. (ii) Distraction. The pisiform is gently pinched between the index and thumb of each hand
and pulled away from the triquetrum.
D Carpometacarpal joints. Fingers - the lett hand grasps around the relevant distal carpal bone while the right hand grasps the
proximal end of the metacarpal. (i) Anteroposterior and posteroanterior. The right hand glides the metacarpal folWards and
backwards. (ii) Medial and lateral transverse. The right hand glides the metacarpal sideways, mediaUy and laterally.
EXAMINATION OF THE WRIST AND HAND 249
Djii
Dv
Dvii
Figure 10.70 (cont'c/} (iii) Medial and lateral rotation. The right hand rotates the metacarpal medially and laterally.
Thumb - the left hand grasps around the trapezium while the right hand grasps the proximal end of the metacarpal.
Div
Dvi
E
(iv) Anteroposterior and posteroanterior. The right hand glides the metacarpal forwards and backwards. (v) Medial and lateral
transverse. The right hand glides the metacarpal sideways, medially and laterally. (vi) Longitudinal cephalad and caudad. The
"tight hand pushes the metacarpal towards the trapezium (longitudinal cephalad) and pulls it away (longitudinal caudad).
(vii) Medial and lateral rotation. The right hand rotates the metacarpal medially and laterally.
E Proximal and distal intermetacarpal joints of the fingers - anteroposterior and posteroanterior. The finger and thumb 01 each
hand gently pinch the anterior and posterior aspects of adjacent metacarpal heads and apply a force in opposite directions to
glide the heads anteriorly and posteriorly.
F Metacarpophalangeal and interphalangeal joints 01 the lingers and thumb. The left hand grasps and supports the head of the
metacarpal while the right hand grasps the proximal phalanx. (i) Anteroposterior and posteroanterior. The right hand glides the
proximal phalanx anteriorly and posteriorly. (ii) Medial and lateral transverse. The right hand glides the proximal phalanx
sideways. medially and laterally. (iii) Longitudinal cephalad and caudad. The right hand pushes the proximal phalanx towards
the metacarpal (longitudinal cephalad) and away (longitudinal caudad). (iv) Medial and lateral rotation. The right hand rotates
the proximal phalanx medially and laterally.
250 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Fi
Fiii
Figure 10.7 (cont'd)
• Proximal alld distal illterll/etacarpal joints of tile
fingers
I
I
H F
H E
anteroposterior
posteroanterior
horizontal flexion
horizontal extension.
• Metacarpopilalmlgeal and illterpilalallgeal joillts of
tile fingers and tilulI/b
med
lat
ceph
caud
med
lat
anteroposterior
posteroanterior
medial transverse
lateral transverse
longitudinal cephalad
longitudinal caudad
medial rotation
lateral rotation.
Movement tests. Kaltenborn (1989) suggests the
following 10 movement tests for the carpal
bones:
Fii
Fiv
• Movements around the capitate
- Fix the capitate and move the trapezoid
- Fix the capitate and move the scaphOid
- Fix the capitate and move the lunate
- Fix the capitate and move the hamate
• Movement on the radial side of the wrist
- Fix the scaphOid and move the trapezoid
and trapezium
• Movements in the radiocarpal joint
- Fix the radius and move the scaphOid
- Fix the radius and move the lunate
- Fix the ulna and move the triquetrum
• Movements on the ulnar side of the wrist
- Fix the triquetrum and move the hamate
- Fix the triquetrum and move the pisiform.
For further information when examining the
accessory movements, alter the:
• Speed of force application
• Direction of the applied force
• Point of application of the applied force
• Position of the joint - for exarnple, the joint
can be placed in flexion, extension, abduction
or adduction.
Following accessory movements, the clinician
reassesses all the asterisks (movements or tests
that have been found to reproduce the patien􀃚s
symptoms) in order to establish the effect of accessory
movements on the patien􀃚s signs and symptoms.
This helps to prove/disprove structure(s) at
fault.
Other joints as applicable
Accessory movements Can then be tested for other
joints suspected to be a source of symptoms, and
by reassessing the asterisks the clinician is then
able to prove/disprove the structure(s) at fault.
Joints likely to be examined are the cervical spine,
thoracic spine, shoulder and elbow complex.
Mobifizations with movement (MWMs) (Mulligan
1 995)
Forearm pronation and supination. The patient
actively supinates or pronates the forearm while
the clinician applies a sustained anterior or posterior
force to the distal end of the ulna at the
wrist. Figure 10.8 demonstrates a posteroanterior
force to distal ulna as the patient actively
Figure 10.8 Mobilization with movement for supination.
A posteroanterior force is applied to the ulna as the patient
actively supinates.
EXAMINATION OF THE WRIST AND HAND 251
Figure 10.9 Mobilization with movement for wrist flexion.
The left hand supports the forearm while the right hand cups
around the ulnar aspect of the wrist and applies a lateral
glide as the patient actively extends the wrist.
supinates. An increase in range and no pain or
reduced pain on active supination or pronation
are positive examination findings, indicating a
mechanical joint problem.
Wrist. The patient actively flexes or extends the
wrist while the clinician applies a sustained
medial or lateral glide to the carpal bones. Figure
1 0.9 demonstrates a lateral glide to the carpal
bones as the patient actively flexes the wrist. An
increase in range and no pain or reduced pain are
positive examination findings.
Interphalangeal joints. The patient actively
flexes or extends the finger while the clinician
applies a sustained medial or lateral glide just
distal to the affected joint. Figure 1 0 . 1 0 demon-
Figure 10.10 Mobilization with movement for finger
extension. The right hand supports the metacarpal joint. The
left hand applies a medial glide just distal to the distal
interphalangeal joint as the patient actively extends the joint.
252 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Subjective examination
Body chart
. .
.
􀀎'.. , .,
. . 􀀏./
. ... - .
/j 􀀃
(
Relationship of symptoms
Aggravating factors
Severe Irritable
Easmg factors
I
No pain
Figure 10.11 Wrist and hand examination chart.
Name
Age
Date
24 hour behaviour
Function
Improving Static
Special questions
General health
Weight loss
RA
Dupuytren's disease
Drugs
Steroids
Anticoagulants
Diabetes
X-ray
Cord symptoms
DIzziness
HPC
PMH
SH & FH
Intensity of pam
Worsening
. .
I
Pain as bad as It
could possibly be
Physical examination
Observalion
Jomt tesrs
JOint Integrity tests
(Watson's scaphoid shift t8St, lunotriquetral
ballottement test. midcarpal test. thumb and finger
instability test)
Active and passive JOint movement
Forearm
Pronation/supination
Radiocarpal JOint
Flexion/extension
Radial/ulnar deviation
CMC and Mep JOints of thumb
Flexion/extension
AbductIOn/adduction
OPPOsItIOn
Dlstal lntermetacarpal JOint
HOrizontal flexion/extension
MCP IOlnts
FleXion/extension
Abduction/adduction
PIP and DIP JOintS
FleXion/extension
Capsular pattern Ves No
JOint effUSion
Other Joints
Muscle rests
Muscle strength
Figure 10.1 1 (conl'd)
EXAMINATION OF THE WRIST AND HAND 253
Muscle length
(Tenodesis, intrinSIC and extrinsIc muscle tightness, length
of Individual muscles)
Isometric muscle tests
Muscle bulk
DiagnostiC tests
(sweater test, Finkelstein test, Ltnburg's sign, FDS.
tennis/golfer's elbow)
Neurological tests
Integrity of the nervous system
Mobility of the nervous system
Diagnostic tests
(Tinel's sign, median and ulnar nerves)
Special rests
(pulses, Allen test, thoraCIC outlet syndrome, hand volume)
Funcflon
Palpation
Accessory movements
(Kaltenborn 10 pomt test)
Other Jomts
MWMs
254 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
strates a medial glide to the distal interphalangeal
joint as the patient actively extends the
jOint. An increase in range and no pain or
reduced pain are positive examination findings.
COMPLETION OF THE EXAMINATION
Having carried out the above tests, the examination
of the wrist and hand is now complete. The
subjective and physical examinations produce a
large amount of information, which needs to be
recorded accurately and quickly. An outline
examination chart may be useful for some clinicians
and one is suggested in Figure 10.11. It is
important, however, that the clinician does not
examine in a rigid manner, simply following the
suggested sequence outlined in the chart. Each
patient presents differently and this should be
reflected in the examination process. It is vital at
this stage to highlight with an asterisk (*) important
findings from the examination. These
findings must be reassessed at, and within, sub-
REFERENCES
American Society for Surgery of the Hand 1990 The hand examination
and diagnosis, 3rd eeln. Churchill
Livingstone, New York
Aulicino P 1995 Clinical examination of the hand. In: Hunter
J M, Mackin E J, Callahan A D (eds) Rehabilitation of the
hand: surgery and thempy, 4th edn. Mosby. St Louis, MO,
ch 5, p 53
Austin G J, Leslie B M, Ruby L K 1 989 Variations of the flexor
digitorum superficialis of the small finger. Journal of Hand
Surgery 14A: 262
Bell-Krotoski J A, Breger-Lee D E, Beach R B 1 995
Biomechanics and evaluation of the hand. Ln: Hunter J M,
Mackin E j, Callahan A D (eds) Rehabilitation of the hand:
surgery and therapy, 4th eeln. Mosby, St Louis, MO, ch t I.
P 1 53
Blair 5 J, McCornlick E, Bear-Lehman J, Fess E E. Rader E
1987 Evaluation of imp.'1irment of the upper extremity.
Clinical Orthopaedics and Related Research 221: 42-58
Clinical Standards Advisory Report 1994 Report of a CSAG
committee on back pain. HMSO. London
Cole 1 1-1. Furness A L, Twomey L T 1988 Muscles in action,
an approach to manual muscle testing. Churchill
LiVingstone, Edinburgh
Cyriax J 1982 Textbook of orthopaedic medicine - diagnosis
of soft tissue lesions, 8th cdn. Bailli􀄋re Tindall. London
Daniels L, Worthingham C 1986 Muscle testing, techniques
of manual examination. 5th edn. W B S.1unders,
Philadelphia, PA
sequent treatment sessions to evaluate the effects
of treahnent on the patient's condition.
On completion of the physical examination,
the clinician should:
• Warn the patient of possible exacerbation up
to 24-48 hours following the examination.
• Request the patient to report details on the
behaviour of the symptoms following
examination at the next attendance.
• Explain the findings of the physical
examination and how these findings relate to
the subjective assessment. An attempt should
be made to clear up any misconceptions
patients may have regarding their illness or
injury.
• Evaluate the findings, formulate a clinical
diagnosis and write up a problem list.
Clinicians may find the management planning
forms shown in Figures 3.51 and 3.52 helpful
in guiding them through what is often a
complex clinical reasoning process.
• Determine the objectives of treatment.
• Devise an initial treatment plan.
Eekhaus D 1993 Swan-neck deformity. In: Clark C L, Wilgis
E F S, Aiello B (eels) Hand rehabilitation, a practical guide.
Churchill Livingstone, Edinburgh, eh 1 6
Eddington L V 1993 Boutonniere deformity. In: Clark C L,
Wilgis E FS, Aiello B (eds) Hand rehabilit,1tion, a practical
guide. Churchill Livingstone, Edinburgh, ch 17
Fess E, Philips C 1987 I-Iand splinting, principles and
methods. C V Mosby, St Louis, MO
Janda V 1994 Muscles and motor control in ccrvicogenic
disorders: assessment and management. In: Crant R (ed)
Physical therapy of the cervical and thoracic spine,
2nd eeln. Churchill Livingstone, New York, ch 10. p 195
]ebson R H, Taylor N, Trieschmann R B, Trotter M 1. Howard
L A 1969 An objective and standardized test of hand
function. Archives of Physical Medicine and Rehnbilitation
50: 31 1-319
Kaltenborn F M 1989 Manual mobiliz.."ltioll of the extremity
joints: basic examinatiOn and treatment, 4th edn. Olaf
Norlis Bokhandel, Oslo
Kendall F P, McCreary E K, Provance P C 1993 Muscles
testing and function, 4th edn. Williams & Wilkins,
Baltimore, MD
Linscheid R L, Dobyns ] H 1987 Physical examination of the
wrist. In: Post M (cd) Physical examination of the
musculoskeletal system. Year Book Medical Publishers,
Chicago, IL, ch 4, P 80
Louis D 5, Hankin F M, Greene T L, Braunstein E M,
White 5 ] 1984 Central carpal inslability-<:apitate lunate
instability pattern. Diagnosis by dynamic placement.
Orthopedics 7(11): t693-1 696
Magee 0 J 1992 Orthopedic physical assessment, 2nd cdn.
W B Saunders, Philadelphia. PA
Maitland C D 1991 Peripheral manipulation, 3rd cdn.
Butterworths, London
Moberg E 1958 Objective methods for determining the
functional value of sensibility in the hand. Journal of Bone
and Joint Surgery 40B(3): 454-476
Mulligan B R 1995 Manual therapy 'nags', 'snags', 'MWMs'
etc., 3rd edn. Plant View Services. New Zealand
Pryce 1 C 1980 The wrist position between neutral and ulnar
deviation that facilitates the maximum power grip
strength. Journal of Biomechanics 13: 505-511
EXAMINATION OF THE WRIST AND HAND 255
Refshauge K. Gass E (OOs) 1995 Musculoskeletal
physiotherapy clinical science and practice. ButtefworthHeinemann,
Oxford
Taleisnik J 1988 Carpal instability. Journal of Bone and Joint
Surgery 70A(8): 1 262-1 268
Totten P, Flinn-Wagner 5 1992 Functional eV
of the hand. In: Stanely B, Tribuzi S (eds) Concepts
in hand rehabilitation. F A Davies, New York, eh 5,
p 128
Tubiana R, Thomine J M, Mackin E 1998 Examination of the
hand and wrist. Martin Dunitz, Boston, MA
Watson H K, Ashmead D I V, Makhlouf M V 1988
Examination of the scaphoid. JouTilal of Hand Surgery
13A(5): 657-660
CHAPTER CONTENTS
Possible causes of pain and/or limitation of
movement 257
Subjective examination 258
Body chart 258
Behaviour of symptoms 259
Special questions 261
History of the present condition (HPC) 261
Past medical history (PM H) 261
Social and family history 262
Plan of the physical examination 262
Physical examination 262
Observation 262
Joint tests 263
Muscle tests 268
Neurological tests 269
Special tests 270
Functional ability 270
Palpation 270
Passive accessory intervertebral movements
(PAIVMs) 271
Completion of the examination 273
Examination of the
lumbar spine
POSSIBLE CAUSES O F PAIN ANDIOR
LIMITATION O F MOVEMENT
This region includes T12 to the sacrum and
coccyx.
• Trauma and degeneration
- Fracture of spinous process, transverse
process, vertebral arch or vertebral
body; fracture dislocation
- Spondylolysis and spondylolisthesis
- Ankylosing vertebral hyperostosis
- Scheuermann's disease
- Syndromes: arthrosis of the zygapophyseal
joints, spondylosis (intervertebral
disc degeneration), intervertebral disc
lesions, prolapsed intervertebral disc,
osteitis condensans ilii, coccydynia,
hypermobility
Ligamentous sprain
- Muscular strain
• Inflammatory
- Ankylosing spondylitis
- Rheumatoid arthritis
• Metabolic
- Osteoporosis
- Paget's disease
- Osteomalacia
257
258 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• Infections
Tuberculosis of the spine
Pyogenic osteitis of the spine
• Tumours, benign and malignant
• Postural low back pain
• Piriformis syndrome
Further details of the questions asked during the
subjective examination and the tests carried out
in the physical examination can be found in
Chapters 2 and 3 respectively.
The order of the subjective questioning and the
physical tests described below can be altered as
appropriate for the patient being examined.
SUBJECTIVE EXAMINATION
Body chart
The following information concerning the type
and area of the current symptoms should be
recorded on a body chart (see Figure 2.4).
Table 11.1 Indications of illness behaviour (Waddell 1 998)
Signs and symptoms Illness behaviour
Pain
Area of current symptoms
Be exact when mapping out the area of the symptoms.
Lesions in the lumbar spine can refer
symptoms over a large area - symptoms are
commonly felt around the spine, abdomen, groin
and lower limbs. Occasionally, symptoms may
be felt in the head, cervical and thoracic spine.
Ascertain which is the worst symptom and
record the patient's interpretation of where slhe
feels the symptom(s) are coming from.
The area of symptoms may, alongside other
signs and symptoms, indicate illness behaviour
(Table 11.1).
Areas relevant to the region being examined
Clear all other areas relevant to the region being
examined, especially between areas of pain,
paraesthesia, stiffness or weakness. Mark these
unaffected areas with ticks (,I) on the body chart.
Check for symptoms in the cervical spine, thoracic
spine, abdomen, groin and lower limbs.
Quality of pain
Establish the quality of the pain.
Physical disease
Pain drawing
Pain adjectives
Non-anatomical. regional, magnified
Emotional
Localized, anatomical
Sensory
Symptoms
Pain
Numbness
Weakness
Behaviour of pain
Response to treatment
Signs
Tenderness
Axial loading
Simulated rotation
Straight leg raise
Motor
Sensory
Whole leg pain
Pain at the tip of the coccyx
Whote leg numbness
Whole leg giving way
Constant pain
Intolerance of treatments
Emergency hospitalization
Superiicial, non-anatomical
Low back pain
Low back pain
Marked improvement with distraction
No improvement with distraction
Regional jerky, giving way
Regional
Musculoskeletal or neurological distribution
Oermatomal
Myotomal
Varies with time and activity
Variable benefit
Musculoskeletal distribution
Neck pain
Nerve rool pain
Limiled on formal examination
Myotomal
Oermatomal
Intensity of pain
EXAMINATION OF THE LUMBAR SPINE 259
The intensity of pain can be measured llsing, for
example, a visual analogue scale (VAS) as shown
in the examination chart at the end of this chapter
(Fig. 11.11). A pain diary may be useful for patients
with chronic low back pain to detennine the pain
patterns and triggering factors over a period of
time.
toms are constant, check whether there is variation
in the intensity of the symptoms, as constant
unremitting pain may be indicative of neoplastic
disease.
Relationship of symptoms
Determine the relationship between symptomatic
areas - do they come together or separately?
For example, the patient could have thigh
pain without lumbar spine pain, or they may
always be present together.
Depth of pain
Discover the patien􀃝s interpretation of the depth
of the pain.
Abnormal sensation
Behaviour of symptoms
Aggravating factors
Check for any altered sensation over the lumbar
spine and other relevant areas. Cornman abnormalities
are paraesthesia and numbness.
For each symptomatic area, discover what movements
and/or positions aggravate the patien􀅢s
symptoms, i.e. what brings them on (or makes
them worse), how long it takes to aggravate them
and what happens to other symptom(s) when one
symptom is produced (or made worse). These
questions help to confirm the relationship between
the symptoms.
,
Constant or intermittent symptoms
Ascertain the frequency of the symptoms, whether
they are constant or intermittent. If symp-
Table 11.2 Effect 01 position and movement on pain-sensitive structures of the lumbar spine (JuU 1 986)
Activity
Sitting
Sitting With extension
Sitting With flexion
Prolonged sitting
Sit to stand
Walking
Driving
Coughing/sneezing/straining
Symptoms
Decreased
Increased
Decreased
Increased
Increased
Increased
Increased
Increased
Increased
Possible structural and pathological implications
Compressive forces (White & Panjabi 1 990)
High intradiscal pressure (Nachemson 1 992)
Intradiscal pressure reduced
Decreased paraspinal muscle activity (Andersson et al 1977)
Greater compromise of structures 01 lateral and central canals
Compressive forces on lower zygapophyseal joints
little compressive load on lower zygapophyseal joints
Greater volume lateral and central canals
Reduced disc bulge posterior1y
Very high intradiscal pressure
Increased compressive loads upper and mid zygapophyseal joints
Gradual creep of tissues (Kazarian 1 975)
Creep, time for reversal, difficulty in straightening up
Extension of spine, increase in disc bulge posteriorly
Shock loads greater than body weight
Compressive load (vertical creep) (Kirkaldy-WiUis & Farfan 1 982)
Leg pain - neurogenic claudication, intermittent claudication
Sitting: compressive forces
Vibration: muscle fatigue, increased intradiscal pressure, creep (Pope
& Hansson 1 992)
Increased dural tension sitting with legs extended
Short hamstrings: pulls lumbar spine into greater flexion
Increased pressure subarachnoid space
Increased intradiscal pressure
Mechanical 'jarring' of sudden uncontrolled movement
260 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
The clinician also asks the patient about theoretically
known aggravating factors for structures
that could be a source of the symptoms.
Common aggravating factors for the lumbar
spine are Aexion (e.g. when putting shoes and
socks on), sitting, standing, walking, standing lip
from the sitting position, driving and coughing/
sneezing. These movements and positions
can increase symptoms because they stress various
structures in the lumbar spine (Table 11. 2).
Aggravating factors for other joints, which may
need to be queried if any of these joints is suspected
to be a source of the symptoms, are
shown in Table 2. 3 (p. 16).
Easing factors
For each symptomatic area, the clinician asks
what I'novements and lor positions ease the
patient's symptoms, how long it takes to ease
them and what happens to other symptom(s)
when one sYll1ptom is relieved. These questions
help to confirm the relationship between the
symptoms.
The clinician asks the patient about theoretically
known easing factors for structures that could
be a source of the symptoms. Commonly found
casing factors for the lumbar spine are shown in
Table 11.2. The clinician should analyse the position
or movement that eases the symptoms in
order to help determine the structure at fault. A
patient who is never free of pain or who needs
long periods of lying down during the day may
be exhibiting illness behaviour.
Severity and irritability of symptoms
Severity and irritability are used to identify
patients who will not be able to tolerate a full
physical examination. If the patient is able to sustain
a position that reproduces the symptoms,
the condition is considered non-severe and overpressures
can be applied in the physical examination.
If the patient is unable to sustain the
position, the condition is considered severe and
no overpressures should be attempted.
If symptoms ease immediately following provocation,
the condition is considered to be non-irritable
and all movements can be tested in the physical
examination. If the symptoms take a few mhlUtes
to ease then the symptoms are irritable and only a
few movements should be attempted to avoid
exacerbating the patient's symptoms.
Twenty-four hour behaviour of symptoms
The clinician determines the 24-hour behaviour
of symptoms by asking questions about night,
morning and evening symptoms.
Night symptoms. The following questions
shou Id be asked:
• Do you have any difficulty getting to sleep?
• What position is most comfortable/
uncomfortable?
• What is your normal sleeping position?
• What is your present sleeping position?
• Do your symptom(s) wake you at night? If so,
- Which symptom(s)?
- How many times in the past week?
- How many times in a night?
- How long does it take to get back to sleep?
• How many and what type of pillows are
used?
• Is the mattress firm or soft?
• Has the mattress been changed tecclttly?
Morning and evening symptoms. The clinician
determines the pattern of the symptoms first
thing in the morning, through the day and at the
end of the day. Stiffness in the morning for the
first few minutes might suggest spondylosis;
stiffness and pain for a few hours are suggestive
of an inflanunatory process such as ankylosing
spond yli tis.
Function
The clinician ascertains how the symptoms vary
according to various daily activities, such as:
• Static and active postures, e.g. sitting,
standing, lying, bending, walking, running,
walking on uneven ground and up and down
stairs, washing, driving, lifting and digging,
etc. Establish whether the patient is left- or
right-handed.
• Work, sport and social activities that may be
relevant to the lumbar spine or other related
areas.
Detailed information about each of the above
activities is useful to help determine the structure
at fault and to identify clearly the functional
restrictions. This information can be used to
determine the aims of treatment and any advice
that may be re quired. The most important functional
restrictions are highlighted with asterisks
('I") and reassessed at subse quent treatment sessions
to evaluate treatment intervention.
Stage of the condition
In order to determine the stage of the condition,
the clinician asks whether the syrnptorns
are getting .b etter, getting worse or remaining
unchanged.
Special questions
Special questions must always be asked, as they
may identify certain precautions or absolute
contra indications to further examination and
treatment techni ques (Table 2.4). As mentioned
in Chapter 2, the clinician must differentiate
between conditions which are suitable for conservative
management and systemic, neoplastic
and other non-neurol'nusculoskeletal conditions,
which re quire referral to a medical practitioner.
The reader is referred to Appendix 2 of Chapter 2
for details of various serious pathological
processes which can mimic nellromllsculoskeletal
conditions (Grieve 1994).
The following information should be obtained
routinely for all patients.
General health. Ascertain the general health of
the patient -find out if the patient suffers from
any malaise, fatigue, fever, nausea or vomiting,
stress, anxiety or depression.
Weight loss. Has the patient noticed any recent
unexplained weight loss?
Rheumatoid arthritis. Has the patient (or a
member of his/her family) been diagnosed as
having rheumatoid arthritis?
EXAMINATION OF THE LUMBAR SPINE 261
Drug therapy. What drugs are being taken by
the patient? Has the patient ever been prescribed
long-ternl (6 months or more) medication/
steroids? Has the patient been taking anticoagulants
recently?
X-ray and medical imaging. Has the patient been
X-rayed or had any other medical tests recently?
Routine spinal X-rays are no longer considered
necessary prior only identify the normal age-related degenerative
c1langes, which do not necessarily correlate with
the patien􀆛s symptoms ( Clinical Standards
Advisory Report 1994). The medical tests may
include blood tests, magnetic resonance imaging,
myelography, discography or a bone scan.
Neurological symptoms. Has the patient experienced
symptoms of spinal cord compression (i.e.
compression to L1 level) such as bilateral tingling
in hands or feet and/ or disturbance of gait?
Has the patient experienced symptoms of cauda
e quina compression (i.e. compression below Ll),
which are saddle anaesthesia/paraesthesia and
bladder and/or bowel sphincter disturbance (loss
of controi,. of incomplete evacuation) (Grieve 1991)? These
symptoms may be due to interference of S 3a nd 54
(Grieve 198 1). Prompt surgical attention is required
to prevent permanent sphincter paralysis.
History of the present condition (HPC)
For eacll symptomatic area, the clinician should
discover how long the symptom has been present,
whether there was a sudden or slow onset and
whether there was a known cause that provoked
the onset of the symptom. If the onset was slow,
the clinician should find out if there has been any
change in the patien􀆜s life-style, e.g. a new job or
hobby or a change in sporting activity, that may
have affected the str esses on the lumbar spine and
related areas. To confirm the relationship between
the symptoms, the clinician asks what happened
to other symptoms when each symptom began.
Past medical history (PMH)
The following information should be obtained
from the patient and/ or the medical notes:
262 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• The details of any relevant medical history.
• The history of any previous attacks: how many
episodes, when were they, what was the cause,
what was the duration of each episode and did
the patient fully recover between episodes? If
there have been no previous attacks, has the
patient had any episodes of stiffness in the
lumbar spine, thoracic spine or any other
relevant region? Check for a history of trauma
or recurrent minor traun13. Emergency
adm..ission for non-specific low back pain and
intolerance of several past management
programmes may indicate illness behaviour.
• Ascertain the results of any past treatment for
the same or similar problem. Past treatment
records may be obtained for further
information.
Social and family history
Social and family history that is relevant to the
onset and progression of the patient's problem
should be recorded. Examples of relevant information
might include the age of the patient,
employment, the home situation, any dependants
and details of any leisure activities. Factors
from this information may indicate direct and/ or
indirect mechanical influences on the lumbar
spine. Frequent and wide-ranging help with personal
care may be part of illness behaviour. In
order to treat the patient appropriately, it is
important to manage within the context of the
patient's social and work environment.
Plan of the physical examination
When all this information has been collected, the
subjective examination is complete. It is useful a t
this stage to highlight with asterisks (*), for ease
of reference, important findings and particularly
one or more functional restrictions. These can
then be re-examined at subsequent treahnent
sessions to evaluate treatment intervention.
In order to plan the physical examination, the
following hypotheses need to be developed from
the subjective examination:
• Structures that must be examined as a possible
cause of the symptoms, e.g. lumbar spine,
thoracic spine, cervical spine, sacroiliac jOint,
hip joint, knee joint, ankle and foot, soft
tissues, muscles and neural tissues. Often it is
not possible to examine fully at the first
attendance and so examination of the
structures must be prioritized over
subsequent treatment sessions .
• Other factors that need to be examined, e.g.
working and everyday postures, leg length,
muscle weakness .
• An assessment of the patient's condition in
terms of severity, irritability and nature (SIN)􀅣
- Severity of the condition: if severe, no
overpressures are applied
- Irritability of the condition: if irritable,
fewer movements are carried out
- Nature of the condition: the physical
examination may require caution in certain
conditions such as neurological
involvement, recent fracture, trauma,
steroid therapy or rheumatoid arthritis;
there may also be certain contraindications
to further examination and treatment, e.g.
symptoms of cauda equina compression.
A physical planning form can be useful for
clinicians to help guide them through the clinical
reasoning process (Figs 2. 11 & 2. 12).
PHYSICAL EXAMINATION
Throughout the physical examination, the clinician
must aim to find physical tests that reproduce
each of the patient's symptoms. Eacll of these positive
tests is highlighted by an asterisk (*) and used
to determine the value of treatment intervention
within and between treatment sessions.
The order and detail of the physical tests
described below need to be appropriate to the
patient being examined. Some tests will be irrelevant,
others will only need to be carried out briefly,
while others will need to be fully investigated.
Observation
Informal observation
The clinician should observe the patient in
dynamic and static situations; the quality of
movement is noted, as are the postural characteristics
and facial expression. Informal observation
will have begun from the moment the clinician
begins the sub jective examination and will continue
to the end of the physical examination.
Formal observation
Observation of posture. The clinician observes
the patient's spinal, pelvic and lower limb posture
in standing, from anterior, lateral and posterior
views. The presence of a lateral shift,
scoliosis, kyphosis or lordosis is noted. A lateral
shift indicates a displacement of the position of
the upper trunk relative to the pelvis (McKenzie
198 1). A left lateral shift means that the shoulders
are displaced to the left of the pelvis; a right lateral
shift is displacement of the shoulders to the
right. The patient may stand with unequal
weight through the legs because of a short leg or
in order to obtain pain relief. The clinician passively
corrects any asymmetry to determine its
relevance to the patient's problem.
Typical postures include the following, which
are shown in Chapter 3 in Figures 3.3-3.8:
• Lower (or pelvic) crossed syndrome Uull &
Janda 1987), otherwise known as the
kyphosis-lordosis posture (Kendall et al 199 3)
• Layer syndrome Uull & Janda 1987)
• Flat back (Kendall et a1 199 3)
! Sway back (Kendall et a1199 3)
• Handedness pattern (Kendall et a I 199 3).
A step deformity of the spinous processes may
indicate a spondylolisthesis.
Observation of muscle form. The clinician observes
the muscle bulk and muscle tone of the
patient, comparing left and right sides. It must be
remembered that the level and fre quency of physical
activity, as well as the dominant side, may well
produce difference in muscle bulk between sides.
Some muscles are thought to shorten under stress,
while other muscles weaken, prodUCing muscle
imbalance ( Table 3.2). Patterns of muscle imbalance
are thought to produce the postures mentioned
above.
Observation of soft tissues. The clinician
observes the quality and colour of the patient's
EXAMINATION OF THE LUMBAR SPINE 263
skin and any area of swelling or presence of scarring,
and takes cues for further examination. A
tuft of hair over the low lumbar spine may indicate
spina bifida occulta.
Observation of gait. The typical gait patterns that
might be expected in patients with low back pain
are the gluteus maximus gait, the Trendelenburg
gait and the short leg gait (see Ch. 3 for further
details).
Observation of the patient's attitudes and feelings.
The age, gender and ethnicity of patients
and their cultural, occupational and social backgrounds
will all affect their attitudes and feelings
towards themselves, their condition and the clinician.
Guarding, braCing, rubbing, grimacing and
sighing are noted for possible signs of illness
behaviour (see Box 2. 1 for further information).
After 2-4 weeks of symptoms, the risk of longterm
disability and loss of work has to be assessed.
Most of the following risk factors are psychosocial
and can be estabUshed by careful questioning or
by using questionnaires (Kendall et aI 1997):
• The belief that back pain is associated with
damage and possible disability
• Avoidance of movement or activity because of
fear of pain and its conse quences
• Low mood and social withdrawal
• Reliance on passive treatment rather than
active participation.
The clinician needs to be aware of and sensitive
to these attitudes, and to empathize and communicate
appropriately so as to develop a rapport
with the patient and thereby enhance the
patient's compliance with the treatment.
Joint tests
Joint tests include integrity tests and active and
passive phYSiological movements of the lumbar
spine and other relevant joints. Passive accessory
movements complete the joint tests and are described
towards the end of the physical examination.
Joint integrity tests
In side lying with the lumbar spine in extension
and hips flexed to 9 0°, the clinician pushes along
264 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
the femoral shafts while palpating the interspinous
spaces between ad jacent lumbar vertebrae
to feel for any excessive movement ( Fig.
1 1. 1). In the same position but with the lumbar
spine in flexion, the clinician pulls along the shaft
of the femur and again palpates the interspinous
spaces to feel for any excessive movement. This
test is described more fully by Maitland ( 1986).
Observation of the quality of active flexion and
extension can also indicate instability of the lumbar
spine (see below).
Active and passive physiological joint movement
For both active and passive physiological joint
movement, the clinician should note the following:
• The quality of movement
• The range of movement
• The behaviour of pain through the range of
movement
• The resistance through the range of movement
and at the end of the range of movement
• Any provocation of muscle spasm.
A movement diagram can be used to depict
this information.
Active physiological movements with overpressure.
The active movements with overpressure
listed below (see Fig. 1 1. 2) are tested with the
patient in standing.
Figure 11.1 Joint integrity test for the lumbar spine. The
fingers are placed in the interspinous space to feel lhe
relative movement of the spinous processes as the clinician
passively pushes and then pulls along the femoral shafts.
The clinician establishes the patient's symptoms
at rest prior to each movement and passively
corrects any movement deviation to determine
its relevance to the patient's symptoms. A typical
observation suggesting lumbar instability is seen
when patients re quire the support of their hands
on their legs as they move into flexion and return
from flexion.
For the lumbar spine, the following are tested:
• Flexion
• Extension
• L lateral flexion
• R lateral flexion
• L rotation (see Fig. 7.30)
• R rotation (see Fig. 7.30)
• L quadrant
• R quadrant
• Repetitive flexion in standing ( R F I S)
• Repetitive extension in standing ( RE I S)
• L side gliding in standing ( SG I S)
• L repetitive side gliding in standing ( R SGIS)
• R side gliding in standing ( SGIS)
• R repetitive side gliding in standing ( R SG I S)
• Flexion in lying ( Fl L)
• Repetitive flexion in lying ( R F I L)
• Extension in lying (E I L)
• Repetitive extension in lying ( R E I L).
Side gliding movements are performed when a
lateral shift is present. A left side glide is when
the hips are taken to the left, and would attempt
to correct a left lateral shift. Jr. right side glide is
when the hips are taken to the right, and would
attempt to correct a right lateral shift.
If all the active movement:> are-full-range and
􀆝ptom-free on overpressure and symptoms are
aggravated by certain postw:es, categorized as a tunil s di'Oi1e (McKenzie
1981).
Modifications to the examination of active physiological
movements. For further information
about the active range of movement the following
can be carried out:
• The movement can be repeated several times
(McKenzie 198 1). In the lumbar spine, flexion
and extension are repeated in both standing
and lying supine, as they have different effects
on the spine. In standing, the movements take
A
D
F
EXAMINATION OF THE LUMBAR SPINE 265
B
E
Figure 11.2 Overpressures to the lumbar spine.
A Flexion. The hands are placed proximally over the lower
thoracic spine and distally over the sacrum. Pressure is then
applied through both hands to increase lumbar spine flexion.
S Extension. Both hands are placed over the shoulders,
which are then pulled down in order to increase lumbar spine
extension. The clinician observes the spinal movement.
C Lateral flexion. Both hands are placed over the shoulders
and a force is applied that increases lumbar lateral flexion.
o Right quadrant. This movement is a combination of
extension, right rotation and right lateral flexion. The hand
hold is the same as extension. The patient actively extends
and the clinician maintains this position and passively rotates
the spine and then adds lateral flexion overpressure.
E Le􀅦 side gliding in Slanding (SGIS). F Flexion in lying (FIL).
c
G
266 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 11.2 (cont'd) G Extension in lying (ElL).
place from above downwards, body weight is
taken through the spine and lumbar spine
flexion will stretch the sciatic nerve. In supine,
the movements occur from below upwards,
there is virtually no body weight through the
spine and with lumbar spine flexion there is
comparatively less stretch on the sciatic nerve.
The point in range at which symptoms are
provoked may, therefore, differ in the
positions of standing and lying. For example,
a problem at the LS/51 joint may produce
symptoms at the end of range when flexion
occurs in standing, but as soon as the patient
flexes when carried out in supine. If there
is an adherent nerve root in the lumbar
spine, flexion in standing may provoke
symptoms, whereas flexion in lying may be
symptom-free.
If on repeated movements there..is.J.lO change
l;" the area of the symptoms then the condition
is categorized as a . sfunctionsyndrom!,
However, if on repeated movements
Reri phera Ii zat i1l1ran d Ge.!!!!a Ii zat iDll
phenomena are manifested then the condition
is cate orized as a 􀀈�ts.)'lld.J:on1l". A
I 􀀗hift is usually associated with a
de,!:!fugement syndrome (see eh. 3 for further
details) and is thought to be due to a
posterolateral displacement of the nucleus
pulposus (McKenzie 1981). There are seven
derangement syndromes described and these
are shown in Table 11.3.
• The speed of the movement can be
altered.
Figure 11.3 Combined movement of the lumbar spine. The
patient moves into lumbar spine flexion and the clinician then
maintains this position and passively adds left lateral flexion.
• Movements can be combined (Edwards 1994,
1999). Any number of positions can be used;
those recommended by Edwards are:
- Flexion then lateral flexion ( Fig. 11.3)
- Extension then lateral flexion
- Lateral flexion then flexion
- Lateral flexion then extension.
• Compression or distraction can be added.
• Movements can be sustained.
• The injuring movement, i.e. the moven'lent
that occurred at the time of the in jury, can be
tested.
• Numer0us differentiation tests (Maitland
1986) can be performed; the choice depends
on the patient's signs and.symptoms. For
example, when trunk rotation in standing on
one leg (causing rotation in the lumbar spine
and hip joint) reproduces the patient's buttock
pain, differentiation between the lumbar spine
and hip joint may be re quired. The clinician
can increase and decrease the lumbar spine
rotation and then the pelvic rotation to find
out what effect this has on the buttock pain. If
the pain is emanating from the hip then the
lumbar spine movements will have no effect
on the buttock pain but pelvic movements will
have an effect; conversely, if the pain is
emanating from the lumbar spine, then
Figure 11.4 Flexion/extension PPIVMs of the lumbar spine.
The clinician palpates the gap between the spinous
processes of L4 and L5 to feel the range of intervertebral
movement during flexion and extension.
lumbar spine rnovements will affect the
buttock pain but pelvic movement will have
no effect.
Capsular pattern. There are no clear capsular
patterns apparent in the lumbar spine.
Passive physiological joint movement. This can
take the form of passive physiological intervertebral
movements ( P PlVMs), which examine the
movement at each segmental level. P P IVMs may
be a useful ad junct to passive accessory intervertebral
movements ( P Al VMs, described later in
this chapter) to identify segmental hypomobility
and hypermobility. They can be performed with
the patient in side lying with the hips and knees
flexed ( Fig. 1 1.4) or in standing. The clinician
palpates the gap between ad jacent spinous
processes to feel the range of intervertebral
movement during flexion, extension, lateral
flexion and rotation.
Table 11.4 Clearing tests
Joint Physiological movement
Rotation and quadrants
EXAMINATION OF THE LUMBAR SPINE 267
Table 11.3 Derangement syndromes of the lumbar spine
(McKenzie 1981)
Derangement Clinical presentation
2
3
4
5
6
7
Other joints
Central or symmetrical pain across L4/5
Rarely buttock or thigh pain
No deformity
Central or symmetrical pain across L4/5
With or without buttock and/or thigh pain
Lumbar kyphosis
Unilateral or asymmetrical pain across L4/5
With or without buttock and/or thigh pain
No deformity
Unilateral or asymmetrical pain across L4/5
With or without buttock and/or thigh pain
Lumbar scoliosis
Unilateral or asymmetrical pain across L4/5
With or without buttock and/or thigh pain
With leg pain extending below the knee
No deformity
Unilateral or asymmetrical pain across L4/5
With or without buttock and/or thigh pain
With leg pain extending below the knee
Sciatic scoliosis
Symmetrical or asymmetrical pain across
L4/5
With or without buttock and/or thigh pain
Increased lumbar lordosis
Other joints apart from the lumbar spine need to
be examined to prove or disprove their relevance
to the patient's condition. The joints most likely
to be a source of the symptoms are the sacroiliac
joint, hip joint, knee joint, foot and ankle. These
joints can be tested fully (see relevant chapter) or,
if they are not suspected to be a source of symptoms,
the relevant clearing tests can be used
(Table 1 1.4).
Accessory movement
Thoracic spine All movements
Sacroiliac joint Compression, distraction and sacral rock caudad
and cephalad
Hip joint
Knee joint
Ankle joint
Patellofemoral joint
Squat and hip quadrant
Extension, extension/abduction, extension/adduction
and squat
Plantarflexion/dorsiflexion and inversion/eversion
Mediall1ateral glide and cephalad/caudad glide
268 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Muscle tests
The muscle tests include examlllmg muscle
strength, control, length and isometric contraction.
Muscle strength
The clinician tests the tnmk flexors, extensors, lateral
nexors and rotators and any other relevant
muscle groups. For details of these general tests
the reader is directed to Daniels & Worthingham
(1986), Cole et al (1988) or Kendall et al (1993).
Greater detail may be re quired to test the
strength of individual muscles, in particular those
muscles prone to become weak, i.e. gluteus maximus,
medius and mininlUS, vastus lateralis, medialis
and intermedius, tibialis anterior and the
peronei (Jull & Janda 1987). Testing the strength of
these muscles is described in Chapter 3.
In addition, lumbar multifidus has been found
to atrophy in patients with low back pain and so
should be tested ( Hides et al 1994). The patient
lies prone and the clinician applies fairly deep
pressure on either side of the lumbar spinous
processes ( Fig. 11.5). The patient attempts to contract
the muscle under the clinician's hands.
Normal function is when the contraction can be
held for 10 seconds and repeated 10 times
( Hodges, personal communication, 1996).
Figure 11.5 Testing active contraction of multifidus. The
clinician applies fairly deep pressure on either side of the
lumbar spinous processes and the patient attempts to
contract the muscle under the clinician's hand.
Muscle control
The relative strength of muscles is considered to
be more important than the overall strength of a
muscle group ( White & Sahrmann 1994).
Relative strength is assessed indirectly by
observing posture, as already mentioned, by the
quality of active movement, noting any changes
in muscle recruitment patterns, and by palpating
muscle activity in various positions.
A method of measuring isolated isometric
muscle contraction of the lateral abdominal muscles
has been described by Hodges & Richardson
(1999). A pressure sensor (set at a baseline pressure
of 70 mm Hg) is placed between the lower
abdomen and the couch with the patient in prone
lying. Abdominal hollowing, i.e. drawing in the
stomach and 'tightening the waist' (Kendall et al
1993), is then attempted by the patient, which •
normally would cause a decrease in pressure of
6-10 mm Hg. A'1 increase in pressure (of the
order of 20 mm Hg) indicates the incorrect contraction
of rectus abdominis. The clinician
should test for excessive activity of external
obli que by observing whether the patient can
breath normally during the abdominal hollowing
exercise. The clinician should also observe
whether any pelvic movement may he causing
the reduction in pressure. The time during which
the correct activation is sustained gives an indication
of muscle endurance. Normal function is
achieved if the patient is able.to sustain the correct
contraction for 10 secoHds and repeat the
contraction 10 times.
Active lumbar stabilization can be tested further
by determining the ability of the patient to
control the same position of the lumbar spine
(using abdominal hollowing) while it is indirectly
loaded via the upper or lower limbs, e.g. hip or
shoulder nexion. Testing of lumbar stabilization
can be progressed still further by more functional
postures, such as Sitting or standing, during
exercises such as curl-ups and pelvic rotation,
and while using isokinetic exercise e quipment.
Muscle length
The clinician checks the length of individual
muscles, in particular those muscles prone to
become short, i.e. the erector spinae, quadratus
lumborum, piriformis, iliopsoas, rectus femoris,
tensor fasciae iatae, hamstrings, tibialis posterior,
gastrocnemius and soleus Uull & Janda 1987).
Testing the length of these muscles is described
in Chapter 3.
Isometric muscle testing
Test trunk flexors, extensors, lateral flexors and
rotators in resting position and, if indicated, in
different parts of the physiological range. I n
addition the clinician observes the quality o f the
muscle cOI)traction to hold this position (this can
be done with the patient's eyes shut). The patient
may, for example, be unable to prevent the joint
from moving or may hold with excessive muscle
activity; either of these circumstances would suggest
a neuromuscular dysfunction.
Neurological tests
Neurological examination involves examining the
integrity of the nervous system, the mobility of the
nervous system and specific diagnostic tests.
Integrity of the nervous system
As a general rule, a neurological examination is
indicated if the patient has symptoms below the
level of the buttock crease.
Dermatomes/peripheral nerves. Light touch and
pain sensation of the lower limb are tested using
cotton wool and pinprick respectively, as
described in Chapter 3. A knowledge of the cutaneous
distribution of nerve roots (derma tomes)
and peripheral nerves enables the clinician to
distinguish the sensory loss due to a root lesion
from that due to a peripheral nerve lesion. The
cutaneous nerve distribution and dermatome
areas are shown in Figure 3.21.
Myotomes/peripheral nerves. The following
myotomes are tested (Fig. 3.27):
• L2 - hip flexion
• L3 - knee extension
• L4 - foot dorsiflexion and inversion
• L5 - extension of the big toe
EXAMINATION OF THE LUMBAR SPINE 269
• 51 - eversion foot, contract buttock, knee
flexion
• 52 - knee flexion, toe standing
• 53--4 - muscles of pelvic floor, bladder and
genital function.
A working knowledge of the muscular distribution
of nerve roots (myotomes) and peripheral
nerves enables the cHnician to d istinguish the
motor loss due to a root lesion from that due to a
peripheral nerve lesion. The peripheral nerve
distributions are shown in Figure 3.25.
Reflex testing. The following deep tendon
reflexes are tested (Fig. 3.28):
• L3/4 - knee jerk
• S1 - ankle jerk.
Mobility of the nervous system
The following neurodynanuc tests may be carried
out in order to ascertain the degree to which
neural tissue is responsible for the production of
the patient's symptom(s):
• Passive neck flexion (PNF)
• Straight leg raise (SLR)
• Passive knee bend (PKB)
• Slump.
These tests are described in detail in Chapter 3.
Other neural diagnostic tests
Stoop test for intermittent cauda equina compression.
The patient is asked to walk briskly for
approximately 50 m. The test will produce the
patient's buttock and leg pain, and causes lower
limb muscle weakness. The test is considered
positive - indicating cauda equina compression if
these symptoms are then eased by lumbar
spine flexion (Dyck 1979).
Plantar response to test for an upper motor neurone
lesion (Walton 1 989). Pressure applied from
the heel along the lateral border of the plantar
aspect of the foot produces flexion of the toes in
the normal. Extension of the big toe with downward
fanning of the other toes occurs with an
upper motor neurone lesion.
270 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Special tests
Vascular tests
If the circulation is suspected of being compromised,
the pulses of the femoral, popliteal and
dorsalis pedis arteries are palpated. The state of
the vascular system can also be determined by
the response of symptoms to dependency and
elevation of the lower limbs.
Leg length
True leg length is measured from the anterior
superior iliac spine (AS IS) to the medial or lateral
malleolus. Apparent leg length is measured from
the umbilicus to the medial or lateral malleolus.
A difference in leg length of up to 1-1.3cm is
considered normal. If there is a leg length d ifference
then test the length of individual bones, the
tibia with knees bent and the femurs in standing.
Ipsilateral posterior rotation of the ilium (on the
sacrum) or contralateral anterior rotation of the
ilium will result in a decrease in leg length
(Magee 1992).
Supine to sit test
The affected leg appears longer in supine and
shorter in long sitting. This implicates anterior
innominate rotation on the affected side
(Wadsworth 1988).
Respiratory tests
These tests are appropriate for patients whose
spinal dysfunction is such that respiration is
affected and may include conditions such as
severe scoliosis and ankylosing spondylitis.
Auscultation and examination of the patient's
sputum may be required, as well as measurement
of the patient's exercise tolerance.
Vital capacity can be measured using a handheld
spirometer. Normal ranges are 2.5-6 L for
men and 2-5 L for women (johnson 1 990).
Maximum inspiratory and expiratory pressures
(PI m,jMIP, p. ma,/MEP) reflect respiratory
muscle strength and endurance. A maximum static
inspiratory or expiratory effort can be measured
by a hand-held mouth pressure monitor (Micromedical
Ltd, Chatham, Kent). Normal values
(Wilson et aI 1984) are:
PI mox' greater than 1 00 cmH20 for males and
greater than 70 cmH20 for females
PE n\ax' greater than 14 0 cmH20 for males and
greater than 90 cmH20 for females.
Functional ability
Some functional ability has already been tested
by the general observation of the patient during
the subjective and physical examinations, e.g. the
postures adopted during the subjective examination
and the ease or difficulty of undressing and
changing position prior to the examination. Any
further functional testing can be carried out at
this point in the examination and may include
lifting, sitting postures, dressing, etc. Clues for
appropriate tests can be obtained from the subjective
examination findings, particularly aggravating
factors.
Palpation
The clinician palpates the lumbar pine and any
other relevant areas. It is useful to record palpation
findings on a body chart (see Fig. 2.4)
and / or palpation chart (Fig. 3.37).
The clinician should note the following:
• The temperature of the area
• Localized increased skin mOIsture
• The presence of oedema or effusion
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules and the lymph "odes in
the femoral triangle
• The presence or elicitation of any muscle
spasm
• Tenderness of bone, trochanteric and psoas
bursae (palpable if swollen), ligaments,
muscle (Baer's point, for tenderness/spasm of
iliacus, lies a third of the way down a line
from the umbilicus to the anterior superior
iliac spine), tendon, tendon sheath, trigger
points (shown in Fig. 3.38) and nerve.
Palpable nerves in the lower limb are as
follows:
- The sciatic nerve can be palpated twothirds
of the way along an imaginary line
between the greater trochanter and the
ischial tuberosity with the patient in prone
- The common peroneal nerve can be
palpated medial to the tendon of biceps
femoris and also around the head of the
fibula
- The tibial nerve can be palpated centrally
over the posterior knee crease medial to the
popliteal artery; it can also be felt behind
the medial malleolus, which is mOTe
noticeable with the foot in dorsiflexion and
eversion
- The superficial peroneal nerve can be
palpated on the dorsum of the foot along
an imaginary line over the fourth
metatarsal; it is more noticeable with the
foot in plantar flexion and inversion
A B
D
EXAMINATION OF THE LUMBAR SPINE 271
- The deep peroneal nerve can be palpated
between the first and second metatarsals,
lateral to the extensor hallucis tendon
- The sural nerve can be palpated on the
lateral aspect of the foot behind the lateral
malleolus, lateral to the tendocalcaneus
• J ncreased or decreased prominence of bones
• Pain provoked or reduced on palpation.
Widespread, superficial, non-anatomical
tenderness suggests illness behaviour.
Passive accessory intervertebral
movements (PA IVMs)
I t is usefu I to use the pa I pa tion cha rt a nd movement
diagrams (or joint pictures) to record findings.
These are explained in detail in Chapter 3.
The clinician should note the foUowing:
c
Figure 11.6 Lumbar spine accessory movements.
A Central posteroanterior. The pisiform grip is used to apply
a posteroanterior pressure on the spinous process.
B Unilateral posteroanterior. Thumb pressure is applied to
the transverse process. C Transverse. Thumb pressure is
applied to the lateral aspect of the spinous process.
o Unilateral anteroposterior. The fingers slowly apply
pressure through the abdomen to the anterior aspect of the
transverse process.
272 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• The quality of movement
• The range of movement
• The resistance through the range and at the
end of the range of movement
• The behaviour of pain through the range
• Any provocation of muscle spasrn.
Lumbar spine (L l-LS) accessory movements
Lumbar spine (Ll -LS) accessory movements
(Fig. 11.6) are as follows (Maitland 1986):
! central posteroanterior
r"l unilateral posteroanterior
_ _ tra ns verse
t..J unilateral anteroposterior.
A
Bii
Sacrum accessory movements
Sacrum accessory movements are as follows (Fig.
11.7) (Maitland 1986):
posteroanterior pressure over base, body
and apex.
Anterior gapping test (gapping test). in supine,
the clinician applies a force that attempts to push
the left and right ASIS apart (Fig. 12.7). Reproduction
of the patient's symptom(s) indicates a
sprain of the anterior sacroiliac joint or ligaments
(Maitland 1986, Magee 1 992, Edwards 1999).
Posterior gapping test (approximation test). In
supine or side lying, the clinician applies a force
that attempts to push the left and right ASIS
Bi
c
Figure 11.7 Sacrum accessory movements. A Posteroanterior over the body of the sacrum. The heel al lhe hand is used to
apply the pressure. B (i) Sacral rock caudad. Pressure is applied to the base of the sacrum using the heel of the right hand in
order 10 rolate the sacrum forwards in the sagittal plane, Le. nutation, The left hand guides the movement. (ii) Sacral rock
cephalad. Pressure is applied to the lip of Ihe sacrum using the heel of Ihe left hand in order 10 rolate the sacrum backwards in
Ihe sagiHal plane, Le. counlemulation. The right hand guides the movement. C Posteroanterior pressure over the posterior
superior iliac spine. Thumb or pisiform pressure can be used.
towards each other (Fig. 12.8) . . Reproduction of
the patien􀃝s symptom(s) indicates a sprain of the
posterior sacroiliac joint or ligaments (Maitland
1 986, Magee 1 992, Edwards 1 999).
Coccyx accessory movements
Coccyx accessory movements (Fig. 1 1 .8) are as
follows (Maitland 1 986):
posteroanterior.
For further information when examining the
accessory movements, 􀅡lter the:
• Speed of force application
• Direction of the applied force
• Point of application of the applied force
• Position of the joint, e.g. accessory movements
can be carried out in the following positions
(Edwards 1999):
- Flexion
- Extension
- Lateral flexion (Fig. 11.9)
- Flexion and lateral flexion
- Extension and lateral flexion.
These positions are thought to increase and
decrease the compressive and stretch effects at
the intervertebral joints.
Following accessory movements, the clinician
reassesses all the asterisks (movements or tests
Figure 11.8 Posteroanterior pressure on the coccyx.
Thumb pressure is used.
EXAMINATION OF THE LUMBAR SPINE 273
Figure 11.9 Palpation of the lumbar spine using a
combined movement. A unilateral PA on the right of L3 is
applied with the spine in left lateral flexion.
that have been found to reproduce the patient's
symptoms) in order to establish the effect of the
accessory movements on the patient's signs and
symptoms. This helps to prove/disprove structure(
s) at fault.
Other joints as applicable
Accessory movements can then be tested for
other joints suspected to be a source of symptoms,
and by reassessing the asterisks the clinician
is then able to prove/disprove the
structure(s) at fault. Joints likely to be examined
are the sacroiliac, hip, knee, foot and ankle.
Sustained natural apophyseal glides (SNAGs)
The painful lumbar spine movements are examined
in sitting and/or standing. Pressure to the
spinous process or transverse process of the lumbar
vertebrae is applied by the clinician as the
patient moves slowly towards the pain. Figure
1 1.10 demonstrates a flexion SNAG on L3. The
level chosen for treatment is the one that is painfree.
For further details on these techniques, see
Chapter 3 and Mulligan (1 995).
COMPLETION O F THE EXAMINATION
This completes the examination of the lumbar
spine. The subjective and physical examinations
produce a large amount of information, which
274 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 1 1 .1 0 Flexion SNAG on L3. A seat belt around the
patient's pelvis is used to stabilize the pelvis. The heel of the
hand is then used to apply a posteroanterior pressure to L3
spinous process as the patient moves slowly into flexion.
needs to be recorded accurately and quickly. An
outline examination chart may be useful for
some clinicians and one is suggested in Figure
11 .11. It is important, however, that the clinician
docs not examine in a rigid manner, simply following
the suggested sequence outlined in the
chart. Each patient presents differently and this
should be reflected in the examination process. It
REFERENCES
Andersson G B J. Orlengren R, Nachemson A 19n
Intradiskal pressure, intra·abdominal pressure and
myoelectriC back muscle activity related to posture and
loading. Clinical OrthopaediCS and Related Research 1 29:
156-164
Clinical Standards Advisory Report 1994 Report of a CSAG
committee on b.l. ck pain. HMSO, London
Cole J I I, Furness A L, Twomey L T 1988 Muscles in action,
an appro..lch to manual muscle testing. Churchill
Livingstone, Edinburgh
Daniels l, Worthing ham C 1986 Muscle testing, techniques
of manual examination, 5th edn. W B Saunders,
Philadelphia, PA
Dyck P 1979 The stoop-test in lumbar entrapment
radiculoP.lthy. Spine 4(1): 89-92
Edwards B C 199 .. Combined movements in the lumbar
spine: their use in examination and treatment. In: Boyling J
D, Palastanga N (OOs) Grieve's modern manual therapy,
2nd t.>dn. Churchill liVingstone, Edinburgh, ch 54, p 745
Edwards B C 1999 Manual of combined movements: their
use in the examination and treatment of mechanical
vertebral column disorders, 2nd ron. ButterworthHeinemann,
Oxford
is vital at this stage to highlight with an asterisk
( .. ) important findings from the examination.
These findings must be reassessed at, and within,
subsequent treatment sessions to evaluate the
effects of treatment on the patient's condition.
On completion of the physical examination the
clinician should:
• Warn the patient of possible exacerbation up
to 24--48 hours following the examination.
• Request the patient to report details on the
behaviour of the symptoms following
examination at the next attendance.
• Explain the findings of the physical
examination and how these findings relate to
the subjective assessment. An attempt should
be made to clear up any misconceptions
patients may have regarding their illness or
injury.
• Evaluate the findings, formulate a clinical
diagnosis and write up a problem list.
Clinicians may find the management planning
forms shown in Figures 3.51 and 3.52 helpful
in guiding them through what is often a
complex clinical reasoning process.
• Determine the objectives of treatment.
• Devise an initial treatment plan.
Grieve G P 1981 Common vertebral joint problem .... Churchill
Livingstone, Edinburgh •
Grieve G P 1 99 1 Mobilisation of the spine, 5th cdn. Churchill
liVingstone, Edinburgh
Grieve G P 199 .. Counterfeit clinical presentations.
Manipulative PhYSiotherapist 26: 1 7-19
H,des J A, Stokes M J, Said. M, Jull G A, Cooper D H 199􀁐
Evidence of lumbar multifidus muscle wasting ipsilateral
to symptoms in patients with acute/sub.leute low back
pain. Spine 19(2): 165--172
Hodges P W, Richardson C A l 999 Altered trunk muscle
recruitment in people with low b.lck pain with upper limb
movement at different speeds. Archives of Physical
Medicine and Rehabjljtation 80: 1005-1012
Johnson N Mcl 1990 Respiratory medicine, 2nd ron.
Blackwell 5cientific Publications, Oxford, ch 3, p 37
Jull G A 1986 Examination of the lumb.lf .,pine. In: Grien􀃖 G
P (cd) Modern manual therapy of the vertebral column.
Churchill Livingstone, Edinburgh, ch 5 1 , P 5-17
Jull G A, Janda V 1987 Muscles and motor control in low
back pam: assessment and management. In: Twomey l T,
Taylor J R (cds) Phy􀃗ici.ll therapy of the low back. Churchill
Livingstone, \Jew York, eh 10, p 251
Subjective examination
Body chart
􀀂
- -
""􀀖
􀀃
Relationship of symptoms
Aggravating lactors
. -,
-v
􀀄 + 􀀅
Severe Irmable
Easing factors
I
No pam
Figure 11.11 Lumbar spine examination chart.
EXAMINATION OF THE LUMBAR SPINE 275
Name
Age
Date
24 hour behaviour
Function
Improvmg Static Worsening
Special questions
General health
Weight loss
RA
Drugs
Steroids
Anticoagulants
X-ray
Cord/cauda equina symptoms
HPC
PMH
SH & FH
I
Pain as bad as It
Imens/ty of pain could possibly be
276 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Physical examination Isometnc muscle tests
Observation
Jomt rests Neurological tests
JOint integrity tests Integrity of the nervous system
Active and passive JOint movement
Flexion Moblhty of the nervous system
RFIS
FIL
RFIL
Extension
REIS Diagnostic leSIS
ElL (SlOOp test. plantar response)
REIL
Lal flexion l
lal flexion A
SGIS L Special rests
RSGIS L (pulses, leg length, supme to Sit
SGIS R test. respiratory tesls)
RSGIS R
Rotation L
Rotation R
Ouadrant L Function
Ouadrant R
Combined movements
Palpauon
PPIVMs
Other Jomts
Accessory movements
Muscle rests
Muscle strength
Other Jomts
Muscle control SNAGS
Muscle length
Figure 11.11 (conrd)
Kazarian L E 1975 Creep characteristics of the human spinal
column. Orthopaedic Clinics of North America 6(1):
3-18
Kendall F P, McCreary E K, Provance P G 1993 Muscles
testing and function, 4th edn. Williams & Wilkins,
Baltimore, MD
Kendall N, Linton 5, Main C 1997Guide to assessing
psychosocial yellow flags in acute low back pain: risk
factors for long.term disability and work los5. Accident
Rehabilitation & Compensation Insurance Corporation of
New Zealand and the National Health Committee,
Wellington, New Zealand, p 1-22
Kirkaldy·Willis W H, F􀂩rfan H F 1 982 Instability of the
lumbar spine. Clinical Orthopaedics and Related Research
165: 1 10-123
McKenzie R A 1981 The lumbar spine mechanical diagnosis
and therapy. Spinal Publications, New Zealand
Magee 0 J 1992 Orthopedic physical assessment, 2nd edn.
W B Saunders, Philadelphia, PA
Maitland G 0 1986 Vertebral manipulation, 5th cdn.
Butterworths, London
Mulligan B R 1995 Manual therapy 'nags', 'snags', 'MWMs'
etc., 3rd edn. Plant View Services, New Zealand
EXAMI NATION OF THE LUMBAR SPINE 277
Nachemson A 1992 Lumbar mechanics as revealed by
lumbar intradiscal pressure measurements. In:
Jayson M I V (ed) The lumbar spine and back pain,
4th edn. Churchill LiVingstone, Edinburgh, ch 9. p 157
Pope M H, Hansson T H 1992 Vibration of the spine and 10\.,.
back pain. Clinical Orthopaedics and Related Research
279: 49-59
Waddell G 1998 The back pain revolution. Churchill
Livingstone, Edinburgh
Wadsworth C T 1988 Manual examination and treatment of
the spine and extremities. Williams & Wilkins, Baltimore.
MD
Walton J H 1989 Essentials of neurology, 6th edn. Churchill
Livingstone, Edinburgh
White A A, Panjabi M M 1990 Clinical biomechanics of the
spine, 2nd edn. J B Lippincott, Philadelphia, PA
White S G, g.,hrmann 5 A 1994 A movement system balance
appro.,ch to musculoskeletal pain. In: Grant R (eel)
PhYSical therapy of the cervical and thoracic spine, 2nd
ron. Churchill Livingstone, Edinburgh, ch "6, p 339
Wilson S H, Cooke N T, Edwards R H T, Spiro 5 G 1984
Predicted normal values for maximal respiratory pressures
in Caucasian adults and children. Thorax 39: 535-538
CHAPTER CONTENTS
Possible causes of pain and/or limitation of
movement 279
Subjective examination 280
Body chart 280
Behaviour of symptoms 280
Special quesUons 282
History of the present condition (HPC) 282
Past medical history (PMH) 283
Social and family history 283
Plan of the physical examination 283
Physical examination 283
Observation 284
Joint tests 285
Muscle tests 287
Neurological tests 287
Special tests 268
Functional ability 288
Palpation 268 •
Accessory movements 288
Completion of the examination 292
Examination of the
pelvis
POSSIBLE CAUSES OF PAIN ANDIOR
LIMITATION OF MOVEMENT
This region includes the sacroiliac joint,
sacrococcygeal joint and pubic symphysis
with their surrounding soft tissues.
• Trauma and degeneration
Fracture of the pelvis
Syndromes: arthrosis of the sacroiliac
joint or pubic symphysis, osteitis condensans
ilii, coccydynia, hypermobility,
ilium on sacrum dysfunctions, sacrum
on ilium dysfunctions
- Ligamentous sprain
Muscular strain
• Inflammatory
- Ankylosing spondylitis
- Rheumatoid arthritis
• Metabolic
- Osteoporosis
- Paget's disease
• Infections
• Tumours, benign and malignant
• Piriformis syndrome
• Referral of symptoms from the lumbar
spine
• Pregnancy is very often associated with
low back pain - 88% of women studied by
Bullock et al (1987) and 96% of those studied
by Moore et al (1990)
279
280 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
The wealth of examination procedures documented
for the sacroiliac joint and the frequency of isolated
sacroiliac joint problems justify a chapter on
the examination of the pelvis. The examination of
the pelvic region should be preceded by a detailed
examination of the lumbar spine (see Ch. 11).
Examination of the hip joint may also be required.
Further details of the questions asked during
the subjective examination and the tests carried
out in the physical examination can be found in
Chapters 2 and 3 respectively.
The order of the subjective questioning and the
physical tests described below can be altered as
appropriate for the patient being examined.
SUBJECTIVE EXAMINATION
Body chart
The following information concerning the type
and area of current symptoms should be recorded
on a body chart (see Fig. 2.4).
Area of current symptoms
Be exact when mapping out the area of the symptoms.
Pain localized over the sacral sulcus is
indicative of sacroiliac jOint dysfUllCtion (Fortin
et 31 1994). Common areas of referral from the
sacroiliac joint are to the groin, buttock, anterior
and posterior thigh. Ascertain which is the worst
symptom and record where the patient feels the
symptoms are coming from. Pain is often unilateral
with sacroiliac joint problems.
Areas relevant to the region being examined
Clear all other areas relevant to the region being
examined, especially between areas of pain,
paraesthesia, stiffness or weakness. Mark these
unaffected areas with ticks (.I) on the body chart.
Check for symptoms in the thoracic spine, lumbar
spine, abdomen, groin and lower limbs.
Quality of pain
Establish the quality of the pain. Often the
patient complains of a d􀂲e with sacroiliac
joint problems.
Intensity of pain
The intensity of pain can be measured using, for
example, a visual analogue scale (V AS) as shown
in the examination chart in Figure 12.13. A pain
diary may be useful for patients with chronic low
back pain, to determine the pain patterns and
triggering factors over a period of time.
Depth of pain
Discover the patien􀂳s interpretation of the depth
of the pain.
Abnormal sensation
Check for any altered sensation over the lumbar
spine and sacroiliac joint and any other relevant
areas. Common abnormalities are paraesthesia
and numbness.
Constant or intermiNent symptoms
Ascertain the frequency of the symptoms, whether
they are constant or intermittent. If symptoms are
constant, check whether there is variation in the
intensity of the symptoms, as constant unremitting
pain may be indicative of neoplastic disease.
Relationship of symptoms
Determine the relationship between the symptomatic
areas - do they com􀂴 together or separately?
For example, the patient could have buttock
pain without back pain, or they may always be
present together.
Behaviour of symptoms
Aggravating factors
For each symptomatic area, discover what movements
and/or positions aggravate the patient's
symptoms, i.e. what brings them on (or makes
them worse), how long it takes to aggravate them
and what happens to other symptom(s) when
one symptom is produced (or made worse).
These questions help to confirm the relationship
between the symptoms.
The clinician also asks the patient about theoretically
known aggravating factors for structures
that could be a source of the symptoms.
Common aggravating factors for the sacroiliac
joint are standing on one leg, turning over in bed,
getting in or out of bed, sloppy standing with
uneven weight distribution through the legs,
habitual work stance, stepping up on the affected
side and walking. Aggravating factors for other
joints, which may need to be queried if any of
these joints is suspected to be a source of the
syn1ptoms, are shown in Table 2.3.
Easing factors
For each symptomatic area, the clinjcian asks what
movements and/or positions ease the patient's
symptoms, how long it takes to ease them and
what happens to other symptoms when one symptom
is relieved. These questions help to confirm
the relationship between the symptoms.
The clinician asks the patient about theoretically
known easing factors for structures that could
be a source of the symptoms. For example, symptoms
from the sacroiliac joint may be eased by
lying supine, stooping forwards in standing
and/or applying a wide belt around the pelvis.
One study has found that a pelvic support gave
some relief of pain in 83% of pregnant women
(Ostgaard et al 1994). The clinician should
analyse the position or movement that eases the
symptoms in order to help determine the structure
at fault.
Severity and irritability of symptoms
Severity and irritability are used to identify
patients who will not be able to tolerate a full
physical examination. If the patient is able to sustain
a position that reproduces their symptoms
then the condition is considered to be non-severe
and overpressures can be applied in the physical
examination. If the patient is unable to sustain
the position, the condition is considered severe
and no overpressures should be attempted.
If symptoms ease immediately following provocation
then the condition is considered to be nonirritable
and all movements can be tested in the
EXAMINATION OF THE PELVIS 281
physical examination. If the symptoms take a few
minutes to ease, the symptoms are irritable and
only a few movements should be attempted to
avoid exacerbating the patient's symptoms.
Twenty-four hour behaviour of symptoms
The clinician determines the 24-hour behaviour
of symptoms by asking questions about night,
morning and evening symptoms.
Night symptoms. The following questions
shou Id be asked:
• Do you have any difficulty getting to sleep?
• What position is most comfortable/
uncomfortable?
• What is your normal sleeping position?
• What is your present sleeping position?
• Do your symptom(s) wake you at night? If so,
- Which symptom(s)?
- Is it because you moved?
- How many times in the past week?
- How many times in a night?
- How long does it take to get back to sleep?
• How many and what type of pillows are
used?
• Is the mattress firm or soft?
• Has the mattress been changed recently?
Morning and evening symptoms. The clinician
determines the pattern of the symptoms first
thing in the morning, through the day and at the
end of the day. In ankylosing spondylitis, the
cardinal and often earliest sign is erosion of the
sacroiliac joints, which is often manifested by
pain and stiffness around the sacroiliac joint and
lumbar spine for the first few hours in the morning
(Apley & Solomon 1993).
Function
The clinician ascertains how the symptoms vary
according to various daily activities, such as:
• Static and active postures, e.g. lying, sitting,
standing, bending, standing on one leg,
walking, walking on uneven ground and up
and down stairs, running, washing, driving,
lifting and digging, etc. Establish which is the
patient's dominant side.
282 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• Work, sport and social activities that may be
relevant to the sacroiliac joint or other related
areas. Sacroiliac joint problems can occur in fast
bowlers at cricket, as they land heavily on one
leg followed by rotation of the trunk and pelvis.
Detailed information on each of the above
activities is useful to help determine the structure
at fault and to identify clearly the functional
restrictions. This information can be used to
determine the aims of treatment and any advice
that may be required. The most important functional
restrictions are highlighted with asterisks
(0) and reassessed at subsequent treatment sessions
to evaluate treatment intervention.
Stage of the condition
In order to determine the stage of the condition,
the clinician asks whether the symptoms
are getting better, getting worse or remaining
unchanged.
Special questions
Special questions must always be asked as they
may identify certain precautions or absolute contraindications
to further examination and treatment
techniques (Table 2.4). As mentioned in
Chapter 2, the clinician must differentiate between
conditions that are suitable for conservative management
and systemic, neoplastic and other nonneuromusculoskeletal
conditions, which require
referral to a medical practitioner. The reader is
referred to Appendix 2 of Chapter 2 for details of
various serious pathological processes that can
mimic neuromusculoskeletal conditions (Grieve
1994).
The following information should be obtained
routinely for all patients.
General health. Ascertain the general health of
the patient - find out if the patient suffers from any
malaise, fatigue, fever, nausea or vomiting, stress,
anxiety or depression. In addition, ask, if necessary,
whether the patient is pregnant. It is common
for low back pain to be associated with pregnancy,
although the underlying mechanism remains
unclear. Recent research suggests that there may
be a number of factors involved, including an increase
in the load on the lumbar spine because of
weight gain, hormonal changes causing hypermobility
of the sacroiliac joint and pubic symphysis
(Hagen 1974), and an increase in the
abdominal sagittal diameter (Ostgaard et .111993).
Little evidence supports the hypothesis that the
pain is related to alteration in posture (Bullock et al
1987, Ostgaard et aI1993).
Weight loss. Has the patient noticed any recent
unexplained weight loss?
Rheumatoid arthritis. Has the patient (or a
member of his/her family) been diagnosed as
having rheumatoid arthritis?
Drug therapy. What drugs are being taken by the
patient? Has the patient ever been prescribed longterm
(6 months or more) medication/steroids?
Has the patient been taking anticoagulants
recently?
X-ray and medical imaging. Has the patient
been X-rayed or had any other medical tests?
Routine spinal X-rays are no longer considered
necessary prior to conservative treatment as they
only identify the normal age-related degenerative
changes, which do not necessarily correlate
with the patient's symptoms (Clinical Standards
Advisory Report 1994). The medical tests may
include blood tests, magnetic resonance imaging,
myelography, discography or a bone scan.
Neurological symptoms. Has the patient experienced
symptoms of spinal cord compression (i.e.
compression of the spinal cord to Ll level),
which are bilateral tingling in hands or feet
and/or disturbance of gait?
Has the patient eXJX:rienced symptoms of cauda
equina compression (i.e. compression below Ll),
which are saddle anaesthesia/paraesthesia and
bladder or bowel sphincter disturbance (loss of
control, retention, hesitancy, urgency or a sense of
incomplete evacuation) (Grieve 1991)? These
symptoms may be due to interference of 53 and 54
(Grieve 1981). Prompt surgical attention is re­
quired to prevent permanent sphincter paralysis.
History of the present condition
(HPC)
For each symptomatic area, the clinician should
discover how long the symptom has been present,
whether there was a sudden or slow onset and
whether there was a known cause that provoked
the onset of the symptom, such as a fall. If the onset
was slow, the clinician should find out if there has
been any change in the patient's life-style, e.g. a
new job or hobby or a change in sporting activity,
that may have affected tpe stresses on the sacroiliac
joint and related areas. If the patient is pregnant,
she may develop associated symptoms as early
as week 18 (Bullock et al 1 987). To confirm the
relationship of symptoms, the clinician asks what
happened to other symptoms when each symptom
began.
Past medical history (PMH)
The following information should be obtained
from the patient and/or the medical notes:
• The details of any relevant medical history,
such as pelvic inflammatory disease or
fractures of the lower limbs.
• The history of any previous attacks: how
many episodes, when were they, what was the
cause, what was the duration of each episode
and did the patient fully recover between
episodes? If there have been no previous
attacks, has the patient had any episodes of
stiffness in the thoracic or lumbar spine or any
other relevant region? Check for a history of
trauma or recurrent minor trauma.
• Ascertain the results of any past treatment for
the same or similar problem. Past treatment
records may be obtained for further
information.
Social and family history
Social and family history that is relevant to the
onset and progression of the patient's condition
should be recorded. Examples of relevant information
might include the age of the patient, employment,
the home situation, any dependants and
details of any leisure activities. Factors from this
information may indicate direct and/or indirect
mecl,anical influences on the sacroiliac joint. In
order to treat the patient appropriately, it is
important that it is managed within the context of
the patient's social and work environment.
EXAMINATION OF THE PELVIS 283
Plan of the physical examination
When all this information has been collected, the
subjective examination is complete. It is useful at
this stage to highlight with asterisks ('), for ease
of reference, important findings and particularly
one or more functional restrictions. These can
then be re-examined at subsequent treatment
sessions to evaluate treatment intervention.
In order to plan the physical examination, the
following hypotheses need to be developed from
the subjective examination:
• The structures that must be examined as a
possible cause of the symptoms, e.g. sacroiliac
jOint, pubiC symphysis, lumbar spine, thoracic
spine, cervical spine, hip jOint, knee jOint,
ankle and foot, soft tissues, muscles and
neural tissues. Often it is not possible to
examine fully at the first attendance and so
examination of the structures must be
prioritized over subsequent treatment
sessions.
• Other factors that need to be examined, e.g.
working and everyday postures, leg length, etc.
• An assessment of the patient's condition in
terms of severity, irritability and nature
(SIN):
- Severity of the condition: if severe no
overpressures are applied
- Irritability of the condition: if irritable,
fewer movements are carried out
- Nature of the condition: the physical
examination may require caution in
certain conditions such as neurological
involvement, recent fracture, trauma,
steroid therapy or rheumatoid arthritis;
there may also be certain contraindications
to further examination and treatment, e.g.
symptoms of cauda equina compression.
A physical planning sheet can be useful for
clinicians to help guide them through the clinical
reasoning process (Figs 2.11 & 2.12).
PHYSICAL EXAMINATION
TI1Ioughout the physical examination, the clinician
must aim to find physical tests that reproduce
284 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
each of the patient's symptoms. Each of these positive
tests is highlighted by an asterisk (0) and used
to determine the value of treahnent intervention
within and between treahl1ent sessions.
The order and detail of the physical tests
described below need to be appropriate to the
patient being examined. Some tests will be irrelevant,
others will only need to be carried out briefly,
while others will need to be fully investigated.
Observation
Informal observation
The clinician should observe the patient in
dynamic and static situations; the quality of
movement is noted, as are the postural characteristics
and facial expression. Informal observation
will have begun from the moment the clinician
begins the subjective examination and will continue
to the end of the physical examination.
Formal observation
Observation 01 posture. The clinician examines
the patient's spinal and lower limb posture in
standing from anterior, lateral and posterior
views. Specific observation of the pelvis involves
noting its position in the sagittal, coronal and horizontal
planes: in the sagittal plane, there may be
excessive anterior or posterior pelvic tilt; in the
coronal plane there may be a lateral pelvic tilt; and
in the horizontal plane there may be rotation of the
pelvis. These abnormalities will be identified by
observing the relative position of the iliac crest, the
anterior and posterior iliac spines (ASIS and PSIS),
ischial tuberosity, skin creases (particularly the
gluteal crease) and the position of the pelvis relative
to the lumbar spine and lower limbs.
The left and right ASIS and PSIS are compared
for symmetry. In addition, the level of the ASlS
and PSIS on the same side are compared; if the
patient has an anterior pelvic tilt the PSIS will be
higher than the ASIS on both left and right sides;
however jf the patient has an anterior rotation
dysfunction of the ilium on the sacrum (innominate
anteriorly rotated on one side) then the PSIS
will be higher than the ASIS on the affected side
only. If the iliac crest and ischial tuberosity are
higher on one side this would indicate an upslip
(see the end of this chapter for further details).
The patient may stand with unequal weight
through the legs because of a short leg or in order
to obtain pain relief. The clinician passively corrects
any asymmetry to determine its relevance
to the patient's problem.
In supine the clinician palpates the left and
right pubic tubercles and pubic rami for symmetry
in the transverse and coronal planes.
Superoinferior asymmetry of the pubic tubercles
or anteroposterior asymmetry of the pubic rami
may indicate a pubic symphysis dysfunction. In
prone the clinician palpates the relative position
of the sacral base and inferior lateral angle ([LA)
of the sacrum (Fig. 12.1). Asymmetry may indicate
sacroiliac joint dysfunction; examples
include a deep sacral base and ILA I)n fine side
indicative of a sacral torsion. The prone extension
test (see later under passive physiological
tests) is used ttl differentiate between an anterior
or posterior sacral torsion; a deep sacral base and
an inferior ILA on one side is indicative of a side
bent sacrum.
Observation 01 muscle lorm. The clinician
observes the muscle bulk and muscle tone of the
patient, comparing left and right sides, and in
particular notes the muscle bulk of gluteus maximus.
It must be remembered that the level and
frequency of physical activity, as well as the
Figure 12.1 Palpation of sacral base and inferior lateral
angle of the sacrum. (From Lee 1999, with permission.)
dominant side, may well produc,e differences in
muscle bulk between sides.
Observation of soft tissues. The clinkian
observes the quality and colour of the patient's
skin and any area of swelling or presence of scarring,
and takes cues for further examination.
Observation of gait. The typical gait patterns
that might be expected in patients with low back
pain are the gluteus maximus gait, the Trendelenburg
gait and the short leg gait (see Ch. 3
for further details).
Observation of the patient's attitudes and feelings.
The age, gender and ethnicity of patients
and their cultural, occupational and social backgrounds
will all affect their attitudes and feelings
towards themselves, their condition and the clinician.
The clinician needs to be aware of and sensitive
to these attitudes, and to empathize and
communicate appropriately so as to develop a
rapport with the patient and thereby enhance the
patient's compliance with the treahnent.
Joint tests
Active physiological movements
There are no active physiological movements at
the sacroiliac joint. The movements of the sacroiliac
joint are nutation (anterior rotation of the
sacrum) and c􀆏rnutation (posterior rotation
of the sacrum), which occur during movement of
the spine and hip joints. Sacroiliac joint movements
are therefore tested using active physiological
movements of the lumbar spine and hip
joints while the sacroiliac joint is palpated by the
clinician; these are described under passive
physiological movements.
Differentiation tests. Numerous differentiation
tests (Maitland 1986) can be performed; the
choice depends on the patient's signs and symptoms.
For example, when the hip flexion/adduction
test (see 'passive physiological movements'
below for further details) reproduces the
patient's groin pain, it may be necessary to differentiate
between the sacroiliac jOint and the hip
joint as a source of the symptoms. The position of
the sacroiliac joint is altered by placing a towel
between the sacrum and the couch, and the test is
EXAMINATION OF THE PELVIS 285
then repeated. If the pain response is affected by
this alteration, the sacroiliac joint is implicated as
a source of the groin pain.
Capsular pattem. No clear capsular pattern is
apparent in the sacroiliac joint. Symptoms are produced
when the joint is stressed (Cyriax 1982).
Passive physiological joint movements
Sacroiliac joint movement tests. The sitting
flexion test, standing flexion test and standing hip
flexion test are often referred to as kinetic tests.
Sitting flexion (Piedallu's sign) (Fig. 12.2). In sitting,
the patient flexes the trunk and the clinician
palpates movement of the left and right posterior
superior iliac spines. This tests the movement of
the sacrum on the ilium. The left and right PSIS
should move equally in a superior direction. If
the PSIS rises more on one side during lumbar
spine flexion, this is thought to indicate hypomobility
of the sacroiliac jOint on that side.
Standing flexion. In standing the patient flexes the
trunk and the clinician palpates the movement of
the left and right PSIS. This tests the movement of
the ilium on the sacrum. The left and right PSIS
should move equally in a superior direction. If the
PSlS rises more on one side during lumbar spine
flexion, this is thought to indicate hypomobility of
the sacroiliac joint on that side.
Standing hip flexion (Gillet test). In standing, the
patient flexes the hip and knee and the clinician
palpates the inferior aspect of the PSIS and the
Figure 12.2 Sitting flexion test (Piedallu's test).
286 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 12.3 Standing hip flexion test (ipsilateral).
sacrum (at the same horizontal level) on the same
side as the movement - ipsilateral test (Fig. 1 2.3).
The test is repeated and compared to the opposite
side. It tests the ability of the ilium to flex and
posteriorly rotate, and the ability of the sacrum
to rotate towards the side of movement (Lee
1989). If the PSIS does not move downwards and
medially on the side of hip flexion, this suggests
hypomobility of the sacroiliac joint on that side.
Abnormal findings may include hip hitching or
movement of the PSIS in a superior direction.
For the contralateral test the patient flexes the
hip and knee and the clinician palpates the inferior
aspect of the PSIS and the sacrum (at the
same horizontal level) on the opposite side as the
movement; for example, the clinician palpates
the left PSIS and sacrum while the patient flexes
the right hip. The test is repeated and compared
to the opposite side. It tests the ability of the
sacrum to move on the ilium. The sacrum should
move in an inferior direction. Abnormal findings
may be no movement or superior movement of
the sacrum relative to the PSIS.
Prone trunk extension test (Greenman 1996). In
prone the depth of the sacral base and inferior
lateral angle of the sacrum are palpated and compared
left to right sides. A sacral base and inferior
lateral angle that are deep on the same side
indicates a sacral torsion (see observation of posture).
The prone extension test is used to differentiate
between an anterior and posterior sacral
torsion. The patient is asked to extend the lumbar
Figure 12.4 Prone extension test.
spine while the clinician palpates the left and
right sacral bases (Fig. 12.4). If the asymmetry
increases on lumbar extension this is indicative
of a posterior sacral torsion; if the asymmetry
reduces, an anterior sacral torsion is indicated.
Anterior and posterior rotation (Lee 1999). With the
patient in side lie, the clinician palpates the sacral
sulcus just medial to the PSIS with the middle
and ring fingers (to monitor movement between
the innominate and sacrum) and palpates the
lumbosacral junction with the index finger (Fig.
12.5). With the other hand the clinician anteriorly
and posteriorly rotates the innominate on the
sacrum. The clinician compares the movement
and pain response on one side to the other.
Normally the ilium should move, followed by
the lumbosacral junction. Typical abnormal
findings on·anterior /posterior rotation include
no movement of the ilium; movement only
occurring at the lumbosacral junction (hypomobility
of the sacroiliac joint); and excessive movement
of the ilium accompanied by little
movement at the lumbosacral junction (hypermobility
of the sacroiliac jOint) - this is often
accompanied with a lack of end feel. This test
thus compares the relative movement of the
sacroiliac joint and the lumbosacral junction.
A
EXAMINATION OF THE PELVIS 287
Figure 12.5 Anterior rotation of the innominate on the sacrum. A Palpation of the sacral sulcus and lumbosacral junction.
S Anterior rotation of the innominate.
Figure 12.6 Hibbs lesl.
Hibbs lesl (Magee 1992). The patient lies prone
with one knee in 900 of flexion. The clinician
medially rotates the hip and palpates the sacroiliac
joint via the posterior superior iliac spine
Table 12.1 Clearing tests
Joint Physiological
movement
Accessory
movement
Thoracic spine
Knee joint
Rotation and quadrants Palpation
Ankle joint
Patellofemoral
joint
Extension, extensionJ
abduction, extension!
adduction and squat
Plantartlexiorv'dorsiflexion
and inversion/eversion
MediaViateral
glide and
cephalad!
caudad glide
(Fig. 12.6). The amount and quality of movement
are compared to the other side.
Lumbar spine PPIVMs. I t may be necessary to
examine lumbar spine PPIVMs, particularly for
the LSjS1 level. See Chapter 1 1 for further details.
Other joints
As has been mentioned, the lumbar spine and
hip joint need to be examined; other joints that
may require examination include the thoracic
spine, knee, ankle and foot. These joints can be
tested fully or, if they are not suspected to be a
source of symptoms, the relevant clearing tests
can be used (Table 12.1 ) .
Muscle tests
Muscle control
Transversus abdominis, gluteus maximllS and
gluteus medius are tested. See Chapters 2 and 11
for further details.
Muscle length
Test length of hamstrings and hip flexors (see
Ch. 2 for further details).
Neurological tests
The neurological tests are the same as those for
the lumbar spine (see Ch. 11).
B
288 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Special tests
The vascular, leg length and respiratory tests are
the same as those for the lumbar spine (see Ch. 11).
Functional ability
Some fWlctional ability has already been tested by
the general observation of the patient during tile
subjective and physical examinations, e.g. the postures
adopted during the subjective examination
and the ease or difficulty of undressing prior to the
examination. Any further functional testing can be
carried out at tilis point in the examination and
may include turning over in bed, sitting postures,
sitting to standing, lifting, the bowling action for
cricket, etc. Clues for appropriate tests can be
obtained from the subjective examination findi.ngs,
particularly aggravating factors.
Palpation
The clinician palpates over the pelvis, including
the sacrum, sacroiliac joints, pubic symphysis
and any other relevant areas. It is useful to record
palpation findings on a body chart (see Fig. 2.4)
and/or palpation chart (Fig. 3.37).
The clinician should note the following:
• The temperature of the area
• Localized increased skin moisture
• The presence of oedema or effusion
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules and lymph nodes in the
femoral triangle
• The presence or elicitation of any muscle
spasm
• Tenderness of bone, trochanteric and psoas
bursae (palpable if swollen), ligament, muscle
(Baer's point, for tenderness/spasm of iliacus,
lies a third of the way down a line from the
umbilicus to the anterior superior iliac spine),
tendon, tendon sheath, trigger points (shown
in Fig. 3.38) and nerve. Palpable nerves in the
lower limb are as follows:
- The sciatic nerve can be palpated twothirds
of the way along an imaginary line
between the greater trochanter and the
ischial tuberosity with the patient in prone.
- The common peroneal nerve can be
palpated medial to the tendon of biceps
femoris and also around the head of the
fibula
- The tibial nerve can be palpated centrally
over the posterior knee crease medial to the
popliteal artery; it can also be felt behind
the medial malleolus, which is more
noticeable with the foot in dorsiflexion and
eversion
- The superficial peroneal nerve can be
palpated on the dorsum of the foot along
an imaginary line over the fourth
metatarsal; it is more noticeable with the
foot in plantar flexion and inversion
- The deep peroneal nerve can be palpated
between the first and second metatarsals,
lateral to the extensor hallucis tendon
- The sural nerve can be palpated on the
lateral aspect of the foot behind the lateral
malleolus, lateral to the tendocaleaneus
• Increased or decreased prominence of bones
• Pain provoked or reduced on palpation.
Accessory movements
It is useful to use the palpation chart and movement
diagrams (or joint pictures) to record
findings. These are explained in detail in Chapter
3. The following examination techniques will
need to be adapted if the patient is pregnant and
is unable to lie prone.
The clinician should note the following:
• The quality of movement
• The range of movement
• The resistance through the range and at the
end of the range of movement
• The behaviour of pain through the range
• Any provocation of muscle spasm.
Sacroiliac accessory movements (pain
provocation tests)
Anterior gapping test (gapping test). In supine,
the clinician applies a force that attempts to push
the left and right ASIS apart (Fig. 12.7). Reproduction
of the patient's symptom(s) indicates a
Figure 12.7 Anterior gapping lest. The hands are crossed
and the heels of the hands rest against the anteromedial
aspect of the anterior superior iliac spines. The hands then
apply a lateral force to the left and right ASIS.
sprain of the anterior sacroiliac joint or ligaments
(Maitland 1986, Magee 1992, Laslett &
Williams 1994, Edwards 1999).
Posterior gapping test (approximation test). In
supine or side lying, the clinician applies a force
that attempts to push the left and right ASIS
towards each other (Fig. 12.8). Reproduction of
the patient's symptom(s) indicates a sprain of the
posterior sacroiliac joint or ligaments (Maitland
1986, Magee 1992, Laslet! & Williams 1994,
Edwards 1 999).
Posterior shear test/femoral shear test
(Porterfield & DeRosa 1991). In supine with the hip
slightly flexed, the clinician applies a longitudinal
cephalad force through the femur to produce
an anteroposterior shear at the sacroiliac joint
Figure 12.8 Posterior gapping test. The hands rest on the
anterolateral aspect of the anterior superior iliac spines. The
hands then apply a medial force to the left and right ASIS.
EXAMINATION OF THE PELVIS 289
Figure 12.9 Posterior/femoral shear test. A longitudinal
cephalad force is applied through the femur with the patient's
hip flexed.
(Fig. 12.9). Reproduction of the patient's symptom(
s) indicates a sacroiliac joint problem,
although it should be realized that this test will
also stress the hip joint.
Longitudinal caudad. With the patient in side
lie and the knee slightly flexed, the clinician
applies a longitudinal force to the ilium through
the iliac crest (Fig. 12.10). Reproduction of pain
Figure 12.10 Longitudinal caudad. Both hands grasp
around the superior aspect of the iliac crest and a
longitudinal caudad force is applied.
290 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
or limited range of movement suggests a sacroiliac
joint problem.
Anteroposterior translation: Innominate/sacrum.
With the patient in crook lying, the clinician
palpates the sacral sulcus just medial to the PSIS
with the middle and ring fingers (to monitor
movement between the innominate and sacrum)
and palpates the lumbosacral junction with the
index finger (same hand position as anterior /
posterior rotation described above). With the
other hand the clinician applies an anteroposterior
force through the iliac crest, feels the range
and the resistance to movement, and notes any
reproduction of the patient's symptoms. End of
range is reached when the pelvic girdle rotates as
a unit beneath the L5 vertebra (Lee 1999).
Superoinferiorflnferosuperior glide: innominate!
sacrum. With the patient in side lie, the clinician
palpates the sacral sulcus just medial to the PSIS
with the middle and ring fingers (to monitor
movement between the i.nnomjnate and sacrum)
and palpates the lumbosacral junction with the
index finger (same hand position as above). With
the other hand the clinician applies a superior or
inferior pressure through the distal end of the
femur, feels the range and the resistance to movement,
and notes any reproduction of the patienrs
symptoms. A lack of translation of the innominate
on the sacrum would be a positive test indicating
hypomobility of the sacroiliac joint.
Sacroiliac accessory movements are as follows:
PSIS
Sacrum/ I ASIS
posteroanterior pressure
over base, body and apex
(Maitland 1986)
posteroanterior pressure
over the posterior superior
iliac spine (Maitland 1986)
posteroanterior pressure
over the sacrum with
anteroposterior pressure of
ASIS (Magee 1992)
{Fig. 12.11).
Coccyx accessory movements
Coccyx accessory movements (Fig. 11.8) are as
follows (Maitland 1986):
Figure 12.11 The clinician applies a posteroanterior
pressure on the sacrum with the right hand and an
anteroposterior pressure on the ASIS with the left hand.
I posteroanterior
-- ---transverse
􀀄 anteroposterior.
For further information when examining the
accessory movements, alter the:
• Speed of force application
• Direction of the applied force
• Point of application of the applied force
• Position of the joint. Accessory movements to
the sacroiliac joint can be altered by
positioning the pelvis in anterior or posterior
rotation, or indirectly by altering the position
of the hip, e.g. placing it in medial rotation as
in the Hibbs test described earlier.
Following accessory movements, the clinician
reassesses all asterisks (movements or tests that
have been found to reproduce the patienrs sym?"
toms) in order to establish the effect of accessory
movements on the patienrs signs and symptoms.
This helps to prove/disprove the structure{s) at
fault.
Other joints as applicable
Accessory movements can then be tested for other
joints suspected to be a source of symptoms, and
Positive standing
hip flexion test
Contralateral leg
EXAMINATION OF THE PELVIS 291
Positive standing
hip flexion test
Ipsilateral leg
Positive
(asymmetry
increases)
Negative
(asymmetry
decreases)
Figure 12.12 Developing a clinical diagnosis of sacroiliac joint dysfunction.
by reassessing the asterisks the clinician is then
able to prove/disprove the structure(s) at fault. As
has already been mentioned, the lumbar spine and
hip joint almost always need to be examined first;
other joints are the thoracic spine, coccyx, knee
joint, foot and ankle.
Sustained natural apophyseal glides (SNAGs)
EXall'lination of the lumbar spine may involve
the use of SNAGs, which are described in
Chapter 11.
Dysfunctions of the sacroiliac joint (Fig. 1 2 . 1 2)
Ilium on sacrum dysfunctions. Ilium on sacrum
dysfunctions are categorized as an anterior rotation,
po terior rotation, an upslip or a combination
of a rotation (anterior or posterior) and an upslip.
Anterior rotation The ilium is excessively anteriorly
rotated relative to the sacrum; the ASIS is
palpated inferior to the PSIS on the affected side.
The standing flexion test and ipsilateral standing
hip flexion tests are positive on examination.
Anterior (and posterior) rotation dysfunctions
are thought to be myofasc.ial in origin and hence
al1 accessory movement testing wil1 be negative.
Posterior rotation. The ilium is excesSively posteriorly
rotated relative to the sacrum; the ASIS is
palpated superior to the PSIS on the affected side.
The standing flexion test and ipsilateral standing
hip flexion tests are positive on examination.
Upslip. This is where the pelvis on one side has
'slipped upwards' relative to the sacrum. The
iliac crest and ischial tuberosity are palpated
superior to the corresponding bony prominences
on the opposite side. The height of the ASIS may
vary as upslip dysfunctions can occur in conjunction
with anterior or posterior rotation dysfunctions.
The standing flexion test and the ipsilateral
standing hip flexion test are positive, as wel1 as
positive accessory joint findings.
292 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Sacrum on ilium dysfunctions. These are classified
as anterior and posterior torsion and sidebent
sacrum.
Torsion dysfunction. The depth of the sacral base
and the inferior lateral angle on one side compared
to the same prominences on the other side
will be relatively superficial (posterior torsion) or
relatively deep (anterior torsion). This is thought
to be due to a rotation of the sacrum about an
oblique axis (Greenman 1996). The prone extension
test described earlier will differentiate
between an anterior and posterior torsion.
Side-bent sacrum. The sacral base and inferior
lateral angles are compared one side to another.
A side-bent sacrum is where the sacral base is
deep and the inferior lateral angle inferior on one
side, so for a left side-bent sacrum the left sacral
base would be deep and the left inferior lateral
angle would be inferior, compared to the right
sacral base, which would be superficial, and the
right inferior lateral angle, which would be superior;
this is shown in Figure 1 2.1 (Greenman
1996). The Sitting nexion test will be positive on
the side of the dysfunction.
COMPLE TION OF THE EXAMINATION
Having carried out the above tests, examination
of the sacroiliac joint is now complete. The subjective
and physical examinations produce a
large amount of information, which needs to be
recorded accurately and quickly. An outline
examination chart may be useful for some c1ini-
REFERENCES
Apley A G, Solomon L 1993 Apley's system of orthopaedics
Clnd fractures, 7th edn. Butterworth-Heinemann, Oxford
Bullock] E, Jull G A, Bullock M I 1987 The relationship of
low back p<1in to postural changes during pregnancy.
Auslrilliiln Journal of Physiolherilpy 33( 1): 10-17
Clinical Standards Advisory Report 199-1 Report of a CSAG
committee on back pain. HMSO, London
Cyriax 1 1982 Textbook of orthopaedic medicine- diagnOSiS
of soft tissue lesions, 8th edn. Bailliere Tindall, London
Edwards B C 1999 Manual of combined movements: their
use in the examination and treatment of mechanical
vertebral column disorders, 2nd ron. ButlerworthHeinemann,
Oxford
cians and one is suggested in Figure 12.13. It is
important, however, that the clinician does not
examine in a rigid manner, simply following the
suggested sequence outlined in the chart. Each
patient presents differently and this should be
reflected in the examination process. It is vital at
this stage to highlight with an asterisk (0) important
findings from the examination. These
findings must be reassessed at, and within, subsequent
treatment sessions to evaluate the effects
of treatment on the patient's condition.
On completion of the physical examination the
clinician should:
• Warn the patient of possible exacerbation up
to 24-48 hours following the examination.
• Request the patient to report details on the
behaviour of the symptoms following
examination at the next attendance.
• Explain the findings of the physical
examination and how these findings relate to
the subjective assessment. An attempt should
be made to clear up any misconceptions
patients may have regarding their illness or
injury.
• Evaluate the findings, formulate a clinical
diagnosis and write up a problem list.
Clinicians may find the management planning
forms shown in Figures 3.51 and 3.52 helpful
in guiding them through what is often a
complex clinical reasoning process.
• Determine the objectives of treatment.
• Devise an initial treatment plan.
Fortin 1 0, April! C N, Ponthieux B, Pier J 1994 5.1croiliac joint:
pain referral maps upon applying a new injection techniquc.
Part II: Clinical evaluation. Spine 19(13): 1483-1489
Greenman P E 1996 Principles of manual medicine, 2nd cdn.
Williams & Wilkins, Baltimore, MD
Grieve G P 1981 Common vertebral joint problems. Churchill
Livingstone, Edinburgh
GrieveG P 1991 Mobilisation of the spine, 5th edn. Churchill
Livingstone, Edinburgh
Grieve G P 1994 Counterfcit clinical presentations.
Manipulative Physiotherapist 26: 1 7-19
Hagen R 1974 Pelvic girdle relaxation from an orthopaediC
point of view. Acta Orthopaedica Scandinavica 45: 5SG-S63
Subjective examination
Body chart
. .
v
Ii 􀀃
)
",1lJ
Relationship of symptoms
Aggravating factors
Severe Irritable
Easing factors
I
No pam
Figure 12.13 Pelvic examination chart.
EXAMINATION OF THE PELVIS 293
Name
Age
Date
24 hour behaviour
Function
Improving Static Worsening
Special questions
General health
Weight loss
RA
Drugs
Steroids
Anticoagulants
X-ray
Cord/cauda equma symptoms
HPC
PMH
SH & FH
I
Parn as bad as It
IntenSity of pain could possibly be
294 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Physical examination Neurological tests
Integnty of the nervous system
Observation
Jomt rests
Mobility 01 the nervous system
Active and passive lOIn( movement
Lumbar spine physiological movements
HIp JOint physiological movements Diagnostic lests
(SlOOp tests, plantar response)
Lumbosacral Junction movement test
Sacroiliac movement tests Special tests
(pulses. leg length.
Sitting flexion respiratory tests)
Standing flexion
Function
Standing hip flexion
Prone trunk extension test
Palpation
Antenor/postenor rotallon
Hibbs test
Accessory movements
Other JOints
Muscle tests
Muscle control
Muscle length
Other Jomts
Figure 12.13 (cont'd)
L..151('1I M, Williams M 199-1 The reliability of selected pain
provocation tests for sacroiliac joint pathology. Spine
19(1 1): 1243-1249
Lee 0 1989 The pelvic girdle. Churchill Livingstone,
Edinburgh
Lee 0 1999 The pelvic girdle. An approach to the
l'xaminalion ilnd treatment of the lumbo-pelvic-hip region,
2nd ron. Churchill livingsione, Edinburgh
Magee 0 J 1992 Orthopedic physical assessment, 2nd ron.
W B S.lunders. Philadelphia, PA
Maitland G D 1986 Vertebral manipulation, 51h ron.
Bultcf\.vorlhs. London
EXAMINATION OF THE PELVIS 295
Moore K, Dumas G A, Reid J G 1990 Postural changes
associated with pregnancy and their relationship wilh
low-back pain. Clinical Biomechanics 5(3): 169-174
Ostgaard 11 C. Andersson G B 1. Schult/ A B, Miller J A A
1993 Influence of some biomechanical factors in low-back
pain in pregnancy. Spine 18(1): 61 -65
Ostgaard H e, Zetherstrom G, Roos·Hansson E, Svanberg B
1994 Reduction of back and posterior pelvic pain in
pregnancy. Spine 19(8): 894-900
Porterfield J A, DeRosa C 1991 Mt:.>chanical low back pain,
perspectives In functional anatomy. W B S.1unders,
Philadelphia. PA, ch 5, P 123
CHAPTER CONTENTS
Possible causes of pain and/or limitation of
movement 297
Subjective examination 298
Body chart 298
Behaviour of symptoms 298
Special questions 299
History of the present condition (HPC) 300
Past medical history (PM H) 300
Social and family history 300
Plan of the physical examination 301
Physical examination 301
Observation 301
Joint tests 302
Muscle tesls 305
Neurological tests 305
Special tests 306
Functional ability 307
Palpation 307
Accessory movements 307
Completion of the examination 309
Examination of the hip
region
POSSIBLE CAUSES OF PAIN AND/OR
LIMITATION OF MOVEMENT
• Trauma
Fracture of the neck or shaft of the
femur
Dislocation
Contusion
Ligamentous sprain
- Muscular strain
• Degenerative conditions - osteoarthrosis
• Inflammatory disorders - rheumatoid
arthritis, acute pyogenic arthritis
• Childhood disorders
- Congenital dislocation of the hips (CDH)
- Perthes' disease
- Tuberculosis
• Adolescent disorders - slipped femoral
epiphysis
• Ankylosing spondylitis
• Neoplasm - primary or secondary bone
tumour
• Bursitis - subtrochanteric, ischiogluteal
and iliopsoas
• Hypermobility
• Referral of symptoms from the lumbar
spine, sacroiliac joint or pelvic organs
297
298 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Further details of the questions asked during the
subjective examination and the tests carried out
in the physical examination can be found in
Chapters 2 and 3 respectively.
The order of the subjective questioning and the
physical tests described below can be altered as
appropriate for the patient being examined.
SUBJECTIVE EXAMINATION
Body chart
The following information concerning the type
and area of current symptoms should be recorded
on a body chart (Fig. 2.4).
Area of current symptoms
Be exact when mapping alit the area of the symptoms.
Lesions of the hip joint commonly refer
symptoms into the groin, anterior thigh and knee
areas. Ascertain which is the worst symptom and
record where the patient feels the symptoms are
coming from.
Areas relevant to the region being examined
Clear all other areas relevant to the region being
examined, especially between areas of pain,
paraesthesia, stiffness or weakness. Mark these
unaffected areas with ticks (.I) on the body chart.
Check for symptoms in the lumbar spine, sacroiliac
joint, knee joint and ankle jOint.
Quality of pain
Establish the quality of the pain.
Intensity of pain
The intensity of pain can be measured using, for
example, a visual analogue scale (VAS) as shown
in the examination chart at the end of this chapter
(Fig. 13.6).
Depth of pain
Discover the patient's interpretation of the depth
of the pain.
Abnormal sensation
Check for any altered sensation, such as paraesthesia
or numbness, over the hip and other relevant
areas.
Constant or intermittent symptoms
Ascertain the frequency of the symptoms, whether
they are constant or intermittent. If symptoms are
constant, check whether there is variation in the
intensity of the symptoms, as constant unremitting
pain may be indicative of neoplastic disease.
Relationship of symptoms
Determine the relationship between the symptomatic
areas - do they come together or separately?
For example, the patient could have thigh pain
without back pain, or they may always be present
together.
Behaviour of symptoms
Aggravating factors
For each symptomatic area, discover what movements
and/or positions aggravate the patient's
symptoms, i.e. what brings them on (or makes
them worse), how long it takes to aggravate them
and what happens to other symptom(s) when one
symptom is produced (or made worse). These
questions help to confirm the relationship between
the symptoms.
The clinician also asks the patient about theoretically
known aggravating factors for structures
that could be a source of the symptoms.
Common aggravating factors for the hip are
squatting, walking, stairs and side lying with the
symptomatic side uppermost, which causes the
hip to fall into adduction. Aggravating factors for
other joints, which may need to be queried if any
of these joints is suspected to be a source of the
symptoms, are shown in Table 2.3.
Easing factors
For each symptomatic area, the clinician asks
what movements and/or positions ease the
patienfs symptom, how long it takes to ease them
and what happens to other symptom(s) when one
symptom is relieved. These questions help to
confirm the relationship between the symptoms ..
The clinician asks the patient about theoretically
known easing factors for structures that could
be a source of the symptoms. For example. symptoms
from the hip joint may be relieved by nonweight-
bearing positions, whereas symptoms
from the sacroiliac joint may be relieved by
applying a wide belt around the pelvis. The clinician
should analyse the position or movement
that eases the symptoms in order to help determine
the structure at fault.
Severity and irritability of symptoms
Severity and irritability are used to identify
patients who will not be able to tolerate a full
physical examination. If the patient is able to sustain
a position that reproduces the symptoms
then the condition is considered to be non-severe
and overpressures can be applied in the physical
examination. If the patient is unable to sustain
the position, the condition is considered severe
and no overpressures should be attempted.
If symptoms ease immediately foUowing provocation
then the condition is considered to be nonirritable
and all movements can be tested in the
physical examination. If the symptoms take a few
minutes to ease, the symptoms are irritable and
only a few movements should be attempted to
avoid exacerbating the patient's symptoms.
Twenty-four hour behaviour of symptoms
The clinician determines the 24-hour behaviour
of symptoms by asking questions about night,
morning and evening symptoms.
Night symptoms. The following questions
should be asked:
• Do you have any difficulty getting to sleep?
• What pOSition is most comfortable/
uncomfortable?
• What is your normal sleeping position?
• What is your present sleeping position?
• Are you able to lie on either side?
EXAMINATION OF THE HIP REGION 299
• Do your symptom(s) wake you at night? If so,
- Which symptom(s)?
- How many times in the past week?
- How many times in a night?
- How long does it take to get back to sleep?
• Is the mattress firm or soft?
• Has the mattress been changed recently?
Morning and evening symptoms. The clinician
determines the pattern of the symptoms first
thing in the morning, through the day and at the
end of the day. Stiffness in the morning for the
first few minutes might suggest arthrosis; stiffness
and pain for a few hours are suggestive of
an inflammatory process such as rheumatoid
arthritis or ankylosing spondylitiS.
Function
The clinician ascertains how the symptoms vary
according to various daily activities, such as:
• Static and active postures, e.g. sitting,
standing, lying, bending, walking, rUlllling,
walking on uneven ground and up and down
stairs, driving, etc. Establish which is the
patient's dominant side.
• Work, sport and social activities that may be
relevant to the hip region or other related areas.
Detailed information about each of the above
activities is useful to help determine the structure
at fault and to identify clearly the functional
restrictions. This information can be used to
determine the aims of treatment and any advice
that may be required. The most important functional
restrictions are highlighted with asterisks
(*) and reassessed at subsequent treatment sessions
to evaluate treatment intervention.
Stage of the condition
In order to determine the stage of the condition,
the clinician asks whether the symptoms are getting
better, getting worse or remaining unchanged.
Special questions
Special questions must always be asked as
they may identify certain precautions or absolute
300 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
contraindications to further examination and
treatment techniques (Table 2.4). As mentioned
in Chapter 2, the clinician must differentiate
between conditions that are suitable for conservative
management and systemic, neoplastic and
other non-neuromusculoskeletal conditions,
which require referral to a medical practitioner.
The following information should be obtained
routinely for all patients.
General health. TI,e clinician ascertains the state
of the patient's general health and finds out if the
patient suffers from any malaise, fatigue, fever,
nausea or vomiting, stress, anxiety or depression.
Check specifically whether the patient has had
pelvic, lower abdominal or back surgery, or urogenital
problems. Find out if a female patient is
pregnant and whether an intrauterine device has
been fitted, which may contraindicate the use of
certain treatment modalities.
Weight loss. Has the patient noticed any recent
unexplained weight loss?
Rheumatoid arthritis. Has the patient (or a
member of his/her family) been diagnosed as
having rheumatoid arthritis?
Drug therapy. What drugs are being taken by the
patient? Has the patient ever been prescribed longterm
(6 months or more) medication/steroids?
Has the patient been taking anticoagulants
recently?
X-ray and medical imaging. Has the patient
been X-rayed or had any other medical tests?
Routine spinal X-rays are no longer considered
necessary prior to conservative treatment as they
only identify the normal age-related degenerative
changes, which do not necessarily correlate
with the patient's symptoms (Clinical Standards
Advisory Report 1994). The medical tests may
include blood tests, magnetic resonance imaging,
myelography, discography or a bone scan.
Neurological symptoms. Has the patient experienced
symptoms of spinal cord compression (i.e.
compression of the spinal cord to L1 level),
which are bilateral tingling in hands or feet
and/ or disturbance of gait?
Has the patient experienced symptoms of
cauda equina compression (i.e. compression
below Ll), which are saddle anaesthesia/paraesthesia
and bladder and/or bowel sphincter disturbance
(loss of control, retention, heSitancy,
urgency or a sense of incomplete evacuation)
(Grieve 1991)? These symptoms may be due to
interference of 53 and 54 (Grieve 1981). Prompt
surgical attention is required to prevent permanent
sphincter paralysis.
History of the present condition
(HPC)
For each symptomatic area, the clinician should
discover how long the symptom has been present,
whether there was a sudden or slow onset
and whether there was a known cause that provoked
the onset of the symptom. If the onset was
slow, the clinician should find out if there has
been any change in the patient's life-style, e.g. a
new job or hobby or a change in sporting activity,
that may have affected the stresses in the hip
region and related areas. To confirm the relationship
between the symptoms, the clinician asks
what happened to other symptoms when each
symptom began.
Past medical history (PM H)
The following information should be obtained
from the patient and/ or the medical notes:
• The details of any relevant medical history.
• The history of any previous attacks: how
many episodes, when were they, what was the
cause, what was the duration of each episode
and did the patient fully recover between
episodes? If there have been no previous
attacks, has the patient had any episodes of
stiffness in the lumbar spine, hip, knee, ankle,
foot or any other relevant region? Check for a
history of trauma or recurrent minor trauma.
• Ascertain the results of any past treatment for
the same or similar problem. Past treatment
records may be obtained for further
information.
Social and family history
Social and family history that is relevant to the
onset and progression of the patient's problem
should be recorded. Examples of relevant information
might include the age of the patient,
employment, the home situation, any dependants
and details of any leisure activities. Factors
from this information may indicate direct and/ or
indirect mechanical influences on the hip. In
order to treat the patient appropriately, it is
important it is managed within the context of the
patient's social and work environment.
Plan of the physical examination
When all this information has been collected, the
subjective examination is complete. It is useful at
this stage to highlight with asterisks (*), for ease
of reference, important findings and particularly
one or more functional restrictions. These can
then be re-examined at subsequent treatment
sessions to evaluate treatment intervention.
In order to plan the physical examination, the
following hypotheses need to be developed from
the subjective examination:
• The structures that must be examined as a
possible cause of the symptoms, e.g. lumbar
spine, sacroiliac joint, hip joint, knee jOint, soft
tissues, muscles and neural tissues. Often it is
not possible to examine fully at the first
attendance and so examination of the
structures must be prioritized over
subsequent treatment sessions.
• Other factors that need to be examined, e.g.
working and everyday postures, leg length,
etc.
• An assessment of the patient's condition in
terms of severity, irritability and nature (SIN):
- Severity of the condition: if severe, no
overpressures are applied
Irritability of the condition: if irritable,
fewer movements are carried out
Nature of the condition: the physical
examination may require caution in certain
conditions such as neurological
involvement, recent fracture, trauma,
steroid therapy or rheumatoid arthritis;
there may also be certain contraindications
to further examination and treatment, e.g.
symptoms of cauda equina compression.
EXAMINATION OF THE HIP REGION 301
A physical planning form can be useful for
clinicians to help guide them through the clinical
reasoning process (Figs 2. 1 1 & 2.12).
PHYSICAL EXAMINATION
Throughout the physical examination the clinician
must aim to find physical tests that reproduce
each of the patient's symptoms. Each of
these positive tests is highlighted by an asterisk
(*) and used to determine the value of treatment
intervention within and between treatment sessions.
The order and detail of the physical tests
described below need to be appropriate to the
patient being examined. Some tests will be irrelevant,
others will only need to be carried out
briefly, while others will need to be fully investigated.
Observation
Informal observation
The clinician should observe the patient in
dynamic and static situations; the quality of
lower limb and general movement is noted, as
are the postural characteristics and facial expression.
Informal observation will have begun from
the moment the clinician begins the subjective
examination and will continue to the end of the
physical examination.
Formal observation
Observation of posture. The clinician examines
the patient's spinal and lower limb posture from
anterior, lateral and posterior views in standing.
Specific observation of the pelvis involves noting
its position in the sagittal, coronal and horizontal
planes: in the sagittal plane, there may be excessive
anterior or posterior pelvic tilt; in the coronal
plane there may be a lateral pelvic tilt; and in
the horizontal plane there may be rotation of the
pelviS. These abnormalities will be identified by
observing the relative position of the iliac crest,
the anterior and posterior iliac spines (ASIS and
PSIS), skin creases (particularly the gluteal creas302
NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
es) and the position of the pelvis relative to the
lumbar spine and lower limbs. In addition, the
clinician notes whether there is even weightbearing
through the left and right leg. The clinician
passively corrects any asymmetry to
determine its relevance to the patient's problem.
Observation of muscle form. The clinician
observes the muscle bulk and muscle tone of the
patient, comparing left and right sides. It must be
remembered that the level and frequency of
physical activity as well as the dominant side
may well produce differences in muscle bulk
between sides. Some muscles are thought to
shorten under stress, while other muscles weaken,
producing muscle imbalance (Table 3.2).
Patterns of muscle imbalance are thought to produce
the postures mentioned above.
Observation of soft tissues. The cHnician
observes the quality and colour of the patient's
skin and any area of swelling or presence of scarring,
and takes cues for further examination.
Observation of gait. Analyse gait (including
walking backwards) on even/uneven ground,
slopes, stairs, running, etc. ote the stride length
and weight-bearing ability. Inspect the feet,
shoes and any walking aids. The typical gait patterns
that might be expected in patients with hip
pain are the gluteus maximus gait. the
Trendelenburg gait and the short leg gait (see Ch.
3 for further details).
Observation of the patient's attitudes and feelings.
The age, gender and ethnicity of patients
and their cultural, occupational and social backgrounds
will all affect their attitudes and feelings
towards themselves, their condition and the clinician.
The clinician needs to be aware of and sensitive
to these attitudes, and to empathize and
communicate appropriately so as to develop a
rapport with the patient and thereby enhance the
patient's compliance with the treatment.
Joint tests
Joint tests include integrity tests and active and
passive physiological movements of the hip and
other relevant joints. Passive accessory movements
complete the joint tests and are described
towards the end of the physical examination.
Joint integrity tests
There are no joint integrity tests described for the
hip joint.
Active and passive physiological joint movement
For both active and passive physiological joint
movemenC the clinician should note the following:
• The quality of movement
• The range of movement
• The behaviour of pain through the range of
movement
• The resistance through the range of movement
and at the end of the range of movement
• Any provocation of muscle spasm.
A movement diagram can be used to depict
this information (see Ch. 3 for further details).
Active physiological movements with overpressure.
The active movements with overpressure
listed below (Fig. 13.1) are tested with the patient
lying supine. Movements are carried out on the
left and right sides.
The clinician establishes the patient's symptoms
at rest, prior to each movement, and passively
corrects any movement deviation to determine its
relevance to the patient's symptoms.
For the hip jOint, the following should be tested:
• Flexion
• Extension
• Abduction
• Adduction
• Medial rotation
• Lateral rotation.
Modifications to the examination of active physiological
movements. For further information
about the active range of movement, the following
can be carried out:
• The movements can be repeated several
times
• The speed of the movement can be altered
• Movements can be combined, e.g. flexion with
rotation, or rotation with flexion
• Compression or distraction can be added
• Movements can be sustained
A
B
c --
• The injuring movement, i.e. the movement
that occurred at the time of the injury, can be
tested
• Differentiation tests.
Numerous differentiation tests (Maitland 1986,
1991) can be performed; the choice depends on
the patient's signs and symptoms. For example,
when trunk rotation with the patient standing on
EXAMINATION OF THE HIP REGION 303
o
E
Figure 13.1 Overpressures to the hip joint. A Flexion. Both
hands rest over the knee and apply overpressure to hip
flexion. B Abduction. The right hand stabilizes the pelvis
while the left hand takes the leg into abduction. C Adduction.
The right hand stabilizes the pelvis while the left hand takes
the leg into adduction. 0 Medial rotation. The clinician's trunk
and right hand support the leg. The left hand and trunk then
move to rotate the hip medially. E Lateral rotation. The
clinician's trunk and right hand support the leg. The left hand
and trunk then move to rotate the hip laterally .
one leg (causing rotation in the lumbar spine and
hip joint) reproduces the patient's buttock pain,
differentiation between the lumbar spine and hip
joint may be required. The clinician can increase
and decrease the lumbar spine rotation and the
pelvic rotation to find out what effect this has on
the buttock pain. If the pain is coming from the
hip then the lumbar spine movements will have
304 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
no effect on the gluteal pain but pelvic movements
will have an effect; conversely, if the pain
is coming from the lumbar spine then lumbar
spine movements will affect the pain but pelvic
movement will have no effect.
Capsular pattern. The capsular pattern for the
hip joint (Cyriax 1982) is gross limitation of
flexion, abduction and medial rotation, slight
limitation of extension and no iinlitation of lateral
rotation.
Passive physiological joint movement. All the
active movements described above can be examined
passively with the patient usually in supine,
comparing left and right sides. Comparison of the
response of symptoms to the active and passive
movements can help to determine whether the
structure at fault is non-contractile (articular) or
contractile (extra-articular) (Cyriax 1982). If the
lesion is non-contractile, such as Ligament, then
active and passive movements will be painful
and/or restricted in the same direction. If the
lesion is in a contractile tissue (i.e. muscle) then
active and passive movements are painful and/or
restricted in opposite directions.
In addition, the following tests can be carried
out:
• Flexion/adduction (or quadrant) test
(Maitland 1991)
• Faber's test.
Flexion/adduction (or quadrant) test (Maitland
1991). The patient lies supine with one knee
flexed. The clinician applies an adduction force
to the hip and then moves the hip from just less
than 90° flexion to full flexion (Fig. 13.2). The
quality, range and pain behaviour of the movement
are noted. Further information can be
obtained by holding the hip in a position of hip
flexion and adduction and adding medial rotation
and/ or a longitudinal cephalad.
Faber's test. The patient lies supine and the leg to
be tested is flexed at the hip with the foot resting
on the opposite knee (the hip is thus placed in
flexion, adduction and medial rotation), The clinician
then passively moves the patient's hip into
lateral rotation as far as possible (Fig. 13.3). If the
leg is not able to be lowered so that it is level with
the resting leg, the test is considered to be positive
Figure 13.2 Flexion/adduction (or quadrant) test. The
patient's thigh is fully supported by the clinician's arms and
trunk. The clinician links the fingers of the hands over the top
of the knee and rests the lett forearm along the inner aspect
of the patient's calf. This allows the clinician to add a
longitudinal force and a medial rotation movement 10 the
examination.
and is indicative of iJiopsoas spasm or a dysfunction
in the hip or sacroiliac joint.
Other joints
Other joints apart from the hip joint need to be
examined to prove or disprove their relevance to
the patient's condition. The joints most likely to be
a source of the symptoms are the lumbar spine,
Figure 1 3.3 Faber's test.
Table 13.1 Clearing tests
Joint Physiological Accessory
movement movement
Lumbar spine Flexion and Quadrants All movements
Sacroiliac Anterior and
joint posterior gapping
Knee joint Extension, extension/
abduction, extensionl
adduction and squat
Patellofemoral Mediaillateral glide and
joint cephalad/caudad
glide
Ankle joint Plantarflexion/dorsiflexion
and inversion/eversion
sacroiliac joint, knee, ankle and foot. These joints
can be tested fully (see relevant chapter), or if they
are not suspected to be a source of the symptoms
then the relevant clearing tests can be used (Table
13.1).
Muscle tests
Muscle tests include examining muscle strength,
control, length and isometric contraction.
Muscle strength
The clinician tests the hip flexors, extensors,
abductors, adductors, medial and lateral rotators
and any other relevant muscle group. For details
of these general tests the reader is directed to
Daniels & Worthingham (1986), Cole et al (1988)
or Kendall et al (1993).
Greater detail may be required to test the
strength of individual muscles, in particular
those muscles prone to become weak, i.e. the rectus
abdominis, gluteus maximus, medius and
minimus, vastus lateralis, medialis and intermedius,
tibialis anterior and the peronei (Jull &
Janda 1987). Testing the strength of these muscles
is described in Chapter 3.
Muscle control
The relative strength of muscles is considered to
be more important than the overall strength of a
EXAMINATION OF THE HIP REGION 305
muscle group (White & Sahrmann 1994). Relative
strength is assessed indirectly by observing posture,
as already mentioned, by the quaHty of
active movement, noting any changes in muscle
recruitment patterns, and by palpating muscle
activity in various positions.
Muscle length
The clinician checks the length of individual muscles,
in particular those muscles prone to become
short, i.e. the erector spinae, quadratus lumborum,
piriformis, iliopsoas, rectus femoris, tensor fasciae
latae, hamstrings, tibialis posterior, gastrocnemius
and soleus (JuJi & Janda 1987). Testing the length
of these muscles is described in Chapter 3.
Isometric muscle testing
The clinician tests the hip joint flexors, extensors,
abductors, adductors, medial and lateral rotators
(and other relevant muscle groups) in resting
pOSition and, if indicated, in different parts of the
physiological range. In addition the clinician
observes the quality of the muscle contraction to
hold this position (this can be done with the
patient's eyes shut). The patient may, for example,
be unable to prevent the joint from moving
or may hold with excessive muscle activity;
either of these circumstances would suggest a
neuromuscular dysfunction.
Muscle bulk
The clinician measures the circumference of the
muscle bulk of the thigh with a tape measure, if a
difference between left and right sides is suspected.
Measurements are usually taken 5, 8, 15 and
23 cm above the base of the patella (Magee 1992).
Neurological tests
Neurological examination involves examining
the integrity and mobility of the nervous system.
Integrity of the nervous system
The integrity of the nervous system is tested if
the clinician suspects that the symptoms are
306 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
emanating from the spine or from a peripheral
nerve.
Dermatomes/peripheral nerves. Light touch and
pain sensation of the lower limb are tested using
cotton wool and pinprick respectively, as
described in Chapter 3. A knowledge of the cutaneous
distribution of nerve roots (derma tomes)
and peripheral nerves enables the clinician to
distinguish the sensory loss due to a root lesion
from that due to a peripheral nerve lesion. The
cutaneous nerve distribution and dermatome
areas are shown in Figure 3.21.
Myotomes/peripheral nerves. The following
myotomes are tested (Fig. 3.27):
• L2 - hip flexion
• L3 - knee extension
• L4 - foot dorsiflexion and inversion
• L5 - extension of the big toe
• 51 - eversion of the foot, contract buttock,
knee flexion
• 52 - knee flexion, toe standing
• 53-4 - muscles of pelvic floor, bladder and
genital function.
A working knowledge of the muscular distribution
of nerve roots (myotomes) and peripheral
nerves enables the clinician to distinguish the
motor loss due to a root lesion from that due to a
peripheral nerve lesion. The peripheral nerve
distributions are shown in Figure 3.25.
Reflex testing. The following deep tendon
reflexes are tested (Fig. 3.28):
• L3/4 - knee jerk
• 51 - ankle jerk.
Mobility of the nervous system
The following neurodynamic tests may be carried
out in order to ascertain the degree to which
neural tissue is responsible for the production of
the patient's symptom(s):
• Passive neck flexion (PNF)
• Straight leg raise (SLR). If this is positive, the
examiner can differentiate between a lesion in
the lumbar spine and the buttock. The leg is
taken to the end range of SLR and knee flexion
is added. If there is no further hip flexion
available this suggests pathology in the
buttock such as bursitis, tumour or abscess
(Magee 1992)
• Passive knee bend (PKB)
• Slump.
These tests are described in detail in Chapter 3.
Special tests
Vascular tests
If the circulation is suspected of being compromised,
the clinician palpates the pulses of the
femoral, popliteal and dorsalis pedis arteries.
The state of the vascular system can also be
determined by the response of the symptoms to
positions of dependency and elevation of the
lower limbs.
Leg length
True leg length is measured from the ASIS to the
medial or lateral malleolus. Apparent leg length
is measured from the umbilicus to the medial or
lateral malleolus. A difference in leg length of up
to 1-1. 3 cm is considered normal. If there is a leg
length difference, test the length of individual
bones - the tibia with knees bent and the femurs
in standing. Ipsilateral posterior rotation of the
ilium (on the sacrum) or contralateral anterior
rotation of the ilium will result in a decrease in
leg length (Magee 1992).
Supine to sit test
This is where one leg appears longer in supine
and shorter in long sitting. This implicates anterior
innomhlate rotation on the affected side
(Wadsworth 1988).
Balance test
Balance is provided by vestibular, visual and
proprioceptive information. This rather crude
and non-specific test is conducted by asking the
patient to stand on one leg with the eyes open
and then closed. If the patien􀆑s balance is as poor
with the eyes open as with the eyes closed, this
suggests a vestibular or proprioceptive dysfunction
(rather than a visual dysfunction). The test is
carried out on the affected and unaffected side; if
there is greater difficulty maintaining balance on
the affected side, this may indicate some proprioceptive
dysfunction.
Ortolani's sign tests
This tests for congenital dislocation of the hips in
infants. The clinician applies pressure against the
greater trochanter and moves the hip joints into
abduction and lateral rotation while applying
some gentle traction (Magee 1992). A hard clunk
followed by an increased range of movement is a
positive test indicating dislocating hips.
Measurement of oedema. If there is oedema
present, measure the circumference of the leg
with a tape measure and compare left and right
sides.
Functional ability
Some functional ability has already been tested
by the general observation of the patient during
the subjective and physical examination, e.g. the
postures adopted during the subjective examination
and the ease or difficulty of undressing and
changing position prior to the examination. Any
further functional testing can be carried out at
this point in the examination and may include
lifting, sitting postures, dressing, etc. Clues for
appropriate tests can be obtained from the subjective
examination findings, particularly aggravating
factors. There are a variety of functional
scales that can be used for the hip; these are documented
by Magee 0992}.
Palpation
The clinician palpates the hip region and any
other relevant area. It is useful to record palpation
findings on a body chart (see Fig. 2.4)
and/or palpation chart (Fig. 3.37).
The clinician should note the following:
• The temperature of the area
• Localized increased skin moisture
• The presence of oedema
EXAMINATION OF THE HIP REGION 307
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules, lymph nodes in the
femoral triangle
• The presence or elicitation of any muscle
spasm
• Tenderness of bone (the greater trochanter
may be tender because of trochanteric bursitis
and the ischial tuberosity because of
ischiogluteal bursitis; inguinal area tenderness
may be due to iliopsoas bursitis (Wadsworth
1988), ligaments, muscle (Baer's point, for
tenderness/spasm of iliacus, lies a third of the
way down a line from the umbilicus to the
anterior superior iliac spine), tendon, tendon
sheath, trigger points (shown in Fig. 3.38) and
nerve. Palpable nerves in the lower limb are as
follows:
- The sciatic nerve can be palpated twothirds
of the way along an imaginary line
between the greater trochanter and the
ischial tuberosity with the patient in prone
- The common peroneal nerve can be palpated
medial to the tendon of biceps femoris and
also around the head of the fibula
- The tibial nerve can be palpated centrally
over the posterior knee crease medial to the
popliteal artery; it can also be felt behind the
medial malleolus, which is more noticeable
with the foot in dorsiflexion and eversion
- The superficial peroneal nerve can be
palpated on the dorsum of the foot along
an imaginary line over the fourth
metatarsal; it is more noticeable with the
foot in plantar flexion and inversion
- The deep peroneal nerve can be palpated
between the first and second rnetatarsais,
lateral to the extensor hallucis tendon
- The sural nerve can be palpated on the
lateral aspect of the foot behind the lateral
malleolus, lateral to the tendocalcaneus
• Increased or decreased prominence of bones
• Pain provoked or reduced on palpation.
Accessory movements
It is useful to use the palpation chart and movement
diagrams (or joint pictures) to record findings.
These are explained in detail in Chapter 3.
308 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
A
C
Figure 13.4 Hip joint accessory movements.
A Anteroposterior. With the patient in side lie. pillows are
placed between the patient's legs to position the hip joint in
neutral. The lelt hand is then placed posterior on the iliac
crest to stabilize the pelvis while the heel of the right hand
applies an anteroposterior pressure over the anterior aspect
of the greater trochanter. B Posteroanterior. With the patient
in side lie pillows are placed between the patient's legs to
position the hip joint in neutral. The right hand grips around
the anterior aspect of the anterior superior iliac spine to
stabilize the pelvis while the left hand applies a
posteroanterior force to the posterior aspect of the greater
trochanter. C Longitudinal caudad. The hands grip just
proximal to the medial and lateral femoral epicondyles and
pull the lemur in a caudad direction. 0 Lateral transverse.
The hip is flexed and a lowel is placed around the upper
thigh. The clinician clasps the hands together on the medial
aspect of the thigh and pulls the leg laterally. The shoulders
against the side of the patient's knee reinforce the
movement.
B
D
The clinician should note the following: Hip joint accessory movements
• The quality of movement
• The range of movement
• The resistance through the range and at the
end of the range of movement
• The behaviour of pain through the range
• Any provocation of muscle spasm.
Hip joint accessory movements (Fig. 13.4) arc as
follows (Maitland 1991):
'j
I
caud
lat
anteroposterior
posteroanterior
longitudinal caudad
lateral transverse (joint distraction).
For further information when examining the
accessory movements, alter the:
• Speed of force application
• Direction of the applied force
• Point of application of the applied force
• Position of the joint - in lying, the hip joint can
he placed in a variety of resting positions,
such as flexion, extension, abduction,
adduction, medial or lateral rotation, or any
combination of these movements.
Following accessory movements, the clinician
reassesses all the asterisks (movements or tests
that have been found to reproduce the patient's
symptoms) in order to establish the effect of
accessory rnovements on the patient's signs and
symptoms. This helps to prove/disprove the
structure(s) at fault.
Other joints as applicable
Accessory movements can then be tested for other
joints suspected to be a source of the symptom(s),
and by reassessing the asterisks the clinician is
then able to prove/disprove the structure(s) at
fault. Joints likely to be examined are the lumbar
spine, sacroiliac joint, knee, foot and ankle.
Mobifizations with movement (MWMs) (Mulligan
1 995)
With the patient supine, the clinician stabilizes
the pelvis and uses a seat belt to apply a lateral
glide to the femur while the patient actively
moves the hip into medial rotation or flexion
(Fig. 13.5). An increase in the range of movement
and no pain or reduced pain on active medial
rotation or nexion of the hip joint in the lateral
glide position are posit.ive examination findings,
indicating a mechanical jOint problem.
COMPLE TION OF THE EXAMINATION
Having carried out all of the above tests, the
examination of the hip region is now complete.
The subjective and phYSical examinations produce
a large amount of information, which needs
to be recorded accurately and quickly. An out-
EXAMINATION OF THE HIP REGION 309
Figure 13.5 Mobilization with movement for hip flexion.
The clinician stabilizes the pelvis with the left hand and uses
a seat belt to apply a lateral glide to the femur while the
patient actively flexes the hip.
line examination chart may be useful for some
clinicians and one is suggested in Figure 13.6. It
is important, however, that the clinician does not
examine in a rigid manner, simply following the
suggested sequence outlined in the chart. Each
patient presents differently and this should be
renected in the examination process. It is vital at
this stage to highlight with an asterisk (» important
findings from the exanlination. These
findings must be reassessed at, and within, subsequent
treatment sessions to evaluate the effects
of treatment on the patient's condition.
On completion of the physical examination,
the clinician should:
• Warn the patient of possible exacerbation up
to 24-48 hours following the examination.
• Request the patient to report details on the
behaviour of the symptoms following
examination at the next attendance.
• Explain the findings of the physical
examination and how these findings relate to
the subjective assessment. An attempt should
be made to clear up any misconceptions
patients may have regarding their illness or
injury.
310 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Subjective examination
Body chart
.
􀀁
(
- .
􀀄
\ll
.
􀀂
Relationship of symptoms
Name
Age
Date
24 hour behaviour
, . •. .,
...... .
􀀂 + 􀀃 Function
Improving Static
Special questions
General health
Weight [ass
RA
Drugs
SterOids
Anticoagulants
X-ray
Worsening
Cordlcauda eqUina symptoms
Aggravating factors
Severe Irritable
Easing factors
I
No pain
Figure 13.6 Hip joint examination chart.
HPC
PMH
SH & FH
I
Pain as bad as It
Intensity of pain could possibly be
Physical examination
Observation
JOint tests
Active and passive Jomt movements
Flexion
Extension
Abduction
Adduction
Medial rOlatlon
Lateral rotation
Flexion/adduction
Faber's test
Capsular pattern Yes No
Other JOints
Muscle rests
Muscle strength
Muscle control
Muscle length
Isometnc muscle tests
Muscle bulk
Figure 13.6 (conl'd)
EXAMINATION OF THE HIP REGION 311
Neurological tests
Integrity of the nervous system
Mob!lity of the nervous system
Special tests
(pulses, Jeg length, supme to 511 lest,
balance test, Ortolan,'s Sign and oedema)
FunctIon
Palpation
Accessory movemenrs
Ocher JOints
MWMs
312 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• Evaluate the findings, formulate a clinical
diagnosis and write up a problem list.
Clinicians may find the management planning
forms shown in Figures 3.51 and 3.52 helpful
REFERENCES
Clinical Standards Advisory Report 1994 Report of a CSAG
committee all back pain. IIMSO, London
Cole J 1-1, Furness A L, T,. '.o mey L T 1988 Muscles in action:
an appro..1ch to manual muscle testing. Churchill
livingstone, Edinburgh
Cyriax J 1982 Textbook of orthopaedic medicine - diagnosis
of soft tis􀃀ue lesions, 8th edn. Bailliere Tindall,
London
Daniels L, Worthingham C 1986 Muscle testing, techniques
of manual examination, 5th cdn. W B 5.1undcrs,
Philadelphia, PA
Grieve G P 1981 Common vertebral joint problems. Churchill
Living:-.tone, Edinburgh
GricveC P )991 Mobilisation of the spine. 5th ron. Churchill
Livingstone, Edinburgh
Jull G A, Janda V 1987 Muscles and motor control in low
back pain: assessment and management. In:
Twomey L T, Taylor J R (t.xls) Physical therapy of the
low bilck. Churchill Livingstone. New York, ch 10,
p 253
in guiding them through what is often a
complex clinical reasoning process .
• Determine the objectives of treatment.
• Devise an initial treatment plan.
Kendall F P, McCreary E K. Provance P G 1993 Muscles
testing and function, 41h (xl. l1. Williams & Wilkins,
Baltimore, MO
Lee 0 1989 The pelvic girdle. Churchill Livlng􀃁tone,
Edinburgh
Magee 0 J 1992 Orthopedic physical .1S0.;6Sment, 2nd l>dn.
W B 5.'lunders, Philadelphia, PA
Maitland G 0 1986 Vertebral manipulation, 5th eeln.
Butlerworths, London
Maitland G 0 1991 Peripheral manipulation, :lrd cdn.
Bulterworths, London
Mulligan B R 1995 Manual therapy 'nags', '.;,n.1gs', 'MWMs'
etc., 3rd cdn. Plant View Services, New Zealand
Wadsworth C T 1988 Manual examination and treatment of
the spine and extremities. Williams &: Wilkins. Baltimore.
MD
White 5 G, 5.,hrmann 5 A 199.. A movement system b.1lance
approilch to musculoskcletill pain. In: Grant R (cd)
Physical therapy of the cervic.,1 and thoracic spine.
2nd cdn. Churchill LiVingstone, Edinburgh, ch l6, p 139
CHAPTER CONTENTS
Possible causes of pain andlor limitation of
movement 313
Subjective examination 314
Body chart 314
Behaviour of symptoms 314
Special questions 316
History of the present condition (HPC) 316
Past medical history (PMH) 317
Social and family history 317
Plan of the physical examination 317
Physical examination 318
Observation 318
Joint tesls 319
Muscle tests 324
Neurological tests 325
Special tests 326
Functional ability 328
Palpation 328
Accessory movements 329
Completion of the examination 333
Examination of the knee
region
POSSIBLE CAUSES OF PAIN ANDIOR
LIMI TATION OF MOVEMENT
This region includes the tibiofemoral,
patellofemoral and superior tibiofibular joints
with their surrounding soft tissues.
• Trauma
- Fracture of the lower end of the femur,
upper end of the tibia or patella
- Dislocation of the patella
Haemarthrosis
Traumatic synovitis
Ligamentous sprain
- Muscular strain
Meniscal tear
- Meniscal cyst
- Damage to fat pads
- Osgood-Schlatter disease
• Degenerative conditions - osteoarthrosis,
haemophilic arthritis
• Inflammatory conditions - rheumatoid
arthritis
• Infection, e.g. acute septic arthritis
(pyarthrosis), tuberculosis
• Chondromalacia patellae
• Osteochondritis desiccans
313
314 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• Knee deformity - genu varum, genu valgum
and genu recurvatum (hyperextension)
• Popliteal cyst
• Bursitis - semimembranosus, prepatellar
and infrapatellar
• Loose bodies
• Plica syndrome
• Hypermobility
• Referral of symptoms from the lumbar
spine, sacroiliac joint or hip joint
Further details of the questions asked during the
subjective exa mination and the tests carried ou t
in the physical examination can be found in
Cha pters 2 and 3 respectively.
The order of the subjective questioning and the
physical tests described below can be altered as
a ppropriate for the patient being exa mined.
SUBJECTIVE EXAMINATION
Body chart
The following informa tion concern ing the type
and area of the current symptoms should be
recorded on a body chart (see Fig. 2.4).
Area of current symptoms
Be exact when mapping out the a rea of the symptoms.
A lesion in the knee join t complex may
refer symptoms proX imally to the thigh or distally
to the foot and ankle. Ascertain which is the
worst symptom and record where the patient
feels the symptoms are coming from.
Areas relevant to the region being examined
Clear all other a reas relevant to the region being
examined, especia lly between a reas of pain,
paraesthesia, stiffness or weakness. Mark these
una ffected areas with ticks (,f) on the body chart.
Check for symptoms in the lumbar spine, sacroiliac
joint, hip, foot and ankle.
Quality of pain
Establish the quality of the pa in. Symptoms may
include swelling, weakness, crepitus, giving
way, locking as well as pain.
Intensity of pain
The intensity of pain call be measured using, for
example, a visual analogue sca le (V AS) as shown
in the examination chart at the end of this chapter
( Fig. 14.21).
Depth of pain
Discover the patien􀂺s interpretation of the depth
of the pain. Distinguish between superficial pain
felt underneath the patella (indicating the pateJlofemoral
join t) and deep pain in the tibiofemoral
join t.
Abnormal sensation
Check for any altered sensation (such as paraesthesia
or numbness) over the knee and other relevant
a reas.
Constant or intermittent symptoms
Ascertain the frequency of the symptoms, whether
they are constant or intermittent. If symptoms are
constant, check whether there is variation in the
intensity of the symptoms, as constant unremitting
pa in may be indicative of neoplastic disease.
Relationship of symptoms
Determine the relationship between symptomatic
areas - do they come together or separately? For
example, the pa tient could have knee pain without
back pain or they may always be presen t together.
Behaviour of symptoms
Aggravating factors
For each symptomatic a rea, discover what movemen
ts and/or positions aggravate the patien􀂺s
symptoms, i.e. what brings them on (or makes
them worse), how long it takes to aggravate them
and what happens to other symptom(s) when
one symptom is produced (or made worse).
These questions help to con firm the relationship
between the sym ptoms.
The clinician also asks the patient abou t theoretically
known aggravating factors for structures
that could be a source of the sym ptoms.
Common aggravating factors for the knee are
walking, runn ing, stairs, squatting and twisting
on a flexed knee, sudden deceleration when funning
and various sporting activities. Patellofemoral
pain is usually aggravated by stair
climbing and prolonged sitting with the knee
flexed, common ly referred to as the 'movie sign'
(Jacobson & Flandry 1989). Aggravating factors
for other joints, which may need to be queried if
any of these joints is suspected to be a source of
the symptoms, are shown in Table 2.3.
Easing factors
For each sym ptomatic area, the clin ician asks
what movements and/or positions ease the
patient's symptoms, how long it takes to ease
them and what happens to other symptoms
when one symptom is relieved. These questions
help to confirm the relationship between the
sym ptoms.
The clinician asks the patient about theoretically
known easing factors for structures that could
be a source of the symptoms. For example, symptoms
from the knee joint may be relieved by
weight-relieving positions, whereas symptoms
from the lumbar spine may be relieved by lying
prone or in a crook lie. The clinician should
analyse the position or movement which eases
the sym ptoms in order to help determine the
structure at fault.
Severity and irritability of symptoms
Severity and irritability are used to identify
patients who will not be able to tolerate a full
physical examination. If the patient is able to sustain
a position that reproduces the sym ptoms
then the condition is considered to be non-severe
and overpressures can be applied in the physical
EXAMINATION
'
OFTHE KNEE REGION 315
exam ination. I f the patient is unable to sustain
the position, the condition is considered severe
and no overpressures should be attempted.
If symptoms ease immediately following provocation
then the condition is considered to be nonirritable
and all movemen ts can be tested in the
phYSical exam ination. If the symptoms take a few
minutes to ease, the sym ptoms are irritable and
on ly a few movemen ts should be attempted to
avoid exacerbating the patient's symptoms.
Twenty-four hour behaviour of symptoms
The clinician determines the 24-hour behaviour of
symptoms by asking questions about n ight, morning
and evening symptoms. It may give a clue as
to the structure at fault; for example, patients with
an injury to the medial meniscus often have trouble
sleeping and lying with the sym ptomatic side
u ppermost as it compresses that side.
Night symptoms. The following questions
should be asked:
• Do you have any difficulty getting to sleep?
• What position is most com fortable/
uncomfortable?
• What is your normal sleeping position?
• What is you r presen t sleeping position?
• Do your symptom (s) wake you at night? I f so,
- Which sym ptom(s)?
- How many times in the past week?
- How many times in a n ight?
- How long does it take to get back to sleep?
Morning and evening symptoms. The clin ician
determines the pattern of the symptoms first
thing in the morning, through the day and at the
end of the day.
Function
The clinician ascertains how the symptoms vary
according to various daily activities, such as:
• S tatic and active postures, e.g. sitting,
standing, lying, bending, walking, running,
walking on uneven ground and up and down
stairs, driving, etc. Establish which is the
patient's dominant side.
316 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• Work, sport and social activities that may be
relevant to the knee region or other related
areas. With chronic problems it is important to
identify extrinsic factors that may be affecting
the problem; these may include habitual lower
limb postures, footwear, details of sports
training such as training errors, poor training
surfaces, poor environmental conditions, poor
equipment, etc.
Detailed information about each of the above
activities is useful to help determine the structure
at fault and to identify clearly the functional
restrictions. This information can be used to
determine the aims of treah"ent and any advice
that may be required. The most important functional
restrictions are highlighted with asterisks
(*) and reassessed at subsequent treatment sessions
to evaluate treatment intervention.
Stage of the condition
In order to determine the stage of the condition,
the clinician asks whether the symptoms
are getting better, getting worse or remaining
unchanged.
Special questions
S pecial questions must always be asked as they
may identify certain precautions or absolute contraindications
to further exam.ination and treatment
techniques ( Table 2.4). As mentioned in
Chapter 2, the clinician must d ifferentiate
between conditions that are suitable for conservative
treah'llent and systemic, neoplastic and
other non-neuromusculoskeletal conditions,
which require referral to a medical practitioner.
The following information should be obtained
routinely for all patients.
General health. The clinician ascertains the state
of the patient's general health and finds out if the
patient suffers from any malaise, fatigue, fever,
nausea or vomiting, stress, anxiety or depression.
Weight loss. Has the patient noticed any recent
unexplained weight loss?
Rheumatoid arthritis. Has the patient (or a
member of his/her family) been diagnosed as
having rheumatoid arthritis?
Drug therapy. What drugs are being taken by the
patient? Has the patient ever been prescribed longterm
(6 months or more) medication/steroids?
Has the patient been taking anticoagulants
recently?
X-ray and medical imaging. Has the patient been
X-rayed or had any other medical tests? The medical
tests may include blood tests, arthroscopy,
magnetic resonance imaging, myelography or a
bone scan.
Neurological symptoms if a spinal lesion is sus·
peeted. Has the patient experienced symptoms of
spinal cord compression (i.e. compression of the
spinal cord to L1 level), which are bilateral tingling
in hands or feet and/or d isturbance of gait?
Has the patient experienced symptoms of cauda
equina compression (i.e. compression below L1),
which are saddle anaesthesia/ paraesthesia and
bladder and/or bowel sphincter disturbance
( loss of control, retention, hesitancy, urgency or a
sense of incomplete evacuation) (Grieve 1991)?
These symptoms may be due to interference of
53 and 54 (Grieve 1981). Prompt surgical attention
is required to prevent per manent sphincter
paralysiS.
History of the present condition
(HPC)
For each symptomatic area the clinician should
discover how long the symptom has been present,
whether there was a sudden or slow onset
and whether there was a known cause that provoked
the onset of the symptom. I f the onset was
slow, the clinician should find out if there has
been any change in the patient's life-style, e.g. a
new job or hobby or a change in sporting activity
or training schedule, that may have affected the
stresses on the knee and related areas. To
confirm the relationship between the symptoms,
the clinician asks what happened to other symptoms
when each symptom began.
The mechanism of injury gives the clinician
some important clues as to the injured structure
in the knee, particularly in the acute stage, when
physical examination may be limited. An anterior
cruciate l igament rupture may be suspected
following an injury that involved rotation of the
Table 14.1 The possible diagnoses suspected from the
mechanism of injury (McConnell, personal communication,
2000)
Mechanism of injury
Rotation of a fixed foot
with a pop/crack with
immediate swelling
Rotation of a fixed foot
with a pop/crack with
delayed swelling
Rapid knee extension
and inferior patellar pain
Eccentric loading of
quadriceps and inferior
patellar pain
Valgus stress
Suspected diagnosis
Rupture of anterior cruciale
ligament
Patellofemoral subluxation
Fat pad irritation
Patellar tendinitis
Medial coJlateral ligament
sprain
Rotatory Injury in younger Meniscal injury
patients with/wilhout locking
Prolonged deep knee Meniscal injury
bend in older patients
body on a fixed foot with a pop or crack sound, followed
by immediate swelling of the knee ( haemarthrosis);
if the swelling appeared within the first
24 hours then acute patellofemoral subluxation
(without osteochondral fracture) is the more likely
diagnosis. The possible diagnoses suspected from
the mechan ism of injury are given in Table 14.1.
Past medical history (PMH)
The following information should be obtained
from the patient and/or the medical notes:
• The details of any relevant medical history.
• The history of any previous attacks: how
many episodes, when were they, what was the
cause, what was the duration of each episode
and did the patient fully recover between
episodes? If there have been no previous
attacks, has the patient had any episodes of
stiffness in the lumbar spine, hip, knee, foot,
ankle or any other relevan t region? C heck for
a history of trauma or recurren t minor trauma.
• Ascertain the results of any past treatment for
the same or sirnilar problem. Past treahnent
records may be obtained for further
information.
EXAMINATION OF THE KNEE REGION 317
Social and family history
Social and family history that is relevant to the
onset and progression of the patient's problem
should be recorded. Examples of relevant information
might include the age of the patient,
employment, the home situation, any dependants
and details of any sport or leisure activities.
Factors from this information may indicate
direct and/or indirect mechanical influences on
the knee. In order to treat the patient appropriately,
it is importan t that the condition is managed
within the con text of the patient's social
and work environmen t.
Plan of the physical examination
When all this information has been collected, the
subjective examination is complete. It is useful at
this stage to highlight with asterisks (*), for ease
of reference, importan t findings and particularly
one or rnore functional restrictions. These can
then be re-examined at subsequent treatment
sessions to evaluate treatment interven tion.
In order to plan the physical examination, the
following hypotheses need to be developed from
the subjective examination:
• The structures that must be examined as a
possible cause of the symptoms, e.g. lumbar
spine, sacroiliac joint, hip, knee, foot and
ankle, soft tissues, muscles and neural tissues.
Often it is not possible to examine fully at the
first attendance and so examination of the
structures must be prioritized over
subsequen t treatment sessions.
• Other factors that need to be examined, e.g.
working and everyday postures, leg length.
• An assessmen t of the patient's condition in
terms of severity, irritability and nature
(SIN):
- Severity of the condition: if severe, no
overpressures are applied
- lrritabiLity of the condition: if irritable,
fewer movements are carried out
- Nature of the condition: the physical
examination may require caution in certain
conditions, such as neurological
involvement, recen t fracture, trauma,
318 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
steroid therapy or rheumatoid arthritis;
there may also be certain con tra indications
to further examination and treatment, e.g.
symptoms of cauda equina compression.
A physical planning form can be useful for
clinicians to help guide them through the clinical
reasoning process ( Figs 2.11 & 2.12).
PHYSICAL EXAMINATION
Throughout the physical examination the clinician
must aim to find physical tests that reproduce each
of the patienrs symptoms. Eacl, of these positive
tests is highlighted by an asterisk (*) and used to
determine the value of treatmen t intervention
within and between treatment sessions.
The order and detail of the physical tests
described below need to be appropriate to the
patien t being examined. Some tests will be irrelevant,
others will only need to be carried out briefly,
while others will need to be fully investigated.
Observation
Informal observation
The clinician should observe the patient in
dynamic and static situations; the quality of
movement is noted, as are the postural characteristics
and facial expression . Informal observation
will have begun from the moment the clinician
begins the subjective examination and will continue
to the end of the physical examination.
Formal observation
This is particularly useful in helping to determine
the presence of intrinsic predisposing factors.
Observation of posture. The clinician examines
the patient's lower limb posture in standing and
in sitting with the knee at 90°. Abnormalities
include internal femoral rotation, enlarged tibial
tubercle (seen in Osgood-Schlatter disease),
genu varum/valgum/ recurvatum, medial/lateral
tibial torsion and excessive foot pronation.
Genu valgum and gen u varum are identified by
measuring the distance between the ankles and
the distance between the femoral medial epicondyles
respectively. Normally, medial tibial
torsion is associated with gen u varum and lateral
tibial torsion with gen u valgum (Magee 1992).
In ternal femoral rotation due to tight iliotibial
band and poor functioning of the posterior gluteus
medius muscle is a common fin ding with
patients with patellofemoral pain and can cause
squinting of the patella and an increased Q angle
(see later). There may be abnormal positioning of
the patella, such as a medial/lateral glide, a lateral
tilt, an anteroposterior tilt, a medial/lateral
rotation or any combination of these positions.
An enlarged fat pad is usually associated with
hyperex tension of the knees and poor quadriceps
con trol, particularly eccen tric inner range (0-20°
of flexion).
The clinician should palpate the talus medially
and laterally; both aspects should be equally
prominen t in the mid position of the sublalar joint.
If the medial aspect of the talus is more prominent
this suggests that the subtalar join t is in pronation.
The position of the calcaneus and talus should be
examined: if the subtalar joint is pronated the
calcaneus would be expected to be everted; if it is
not, i.e. if it is straight or inverted, this would suggest
a stiff subtalar joint. Du ring gait the subtalar
joint would pronate at mid-stance rather than at
heel strike, as in the normal cycle.
Any abnormality will require further examination,
as described in the section on palpation,
below. In addition, the clinician notes whether
there is even weight-bearing through the left and
right legs. The clinician passively corrects any
asymmetry to determine its relevance to the
patienrs problem.
It should be noted that pure postural dysfunction
rarely influences one region of the body in iso­
lation and it may be necessary to observe the
patient more fully for a full postural examination .
The clinician examines dynamic postures such
as gait, stair climbing, squatting, etc. Observation
of gait may reveal, for example, excessive pelvic
rotation (about a horizontal plane) associated
with anterior pelvic tilt. This may be due to
hyperextension of the knees and limited extension
and external rotation of the hip.
Observation of muscle form. The cJ inician
observes the muscle bulk and muscle tone of the
patient, comparing left and right sides. I t must be
remembered that the level and frequency o f
physical activity as well as the dominant side
may well produce differences in muscle bulk
between sides. Some muscles are thought to
shorten under stress, while other muscles weaken,
producing muscle imbalance (Table 3.2).
Observation of soft tissues. The clinician
observes the quality and colo ur o f the patient's
skin, any area of swelling, joint effusion or presence
o f scarring, and takes cues for further examination
.
Observation of gait. Analyse gait ( including
walking backwards) on even/uneven ground,
slopes, stairs, running, etc. ote the stride length
and weight-bearing ability. Inspect the feet,
shoes and any walking aids.
Observation at the patient's attitudes and feelings.
The age, gender and ethnicity o f patients
and their cultural, occupational and social backgrounds
will all af fect their attitudes and feelings
towards themselves, their condition and the clinician,
The clinician needs to be aware of and sensitive
to these attitudes, and to empathize and
communicate appropr iately so as to develop a
rapport with the patient and thereby enhance the
patient's compliance with the treatment.
Joint tests
Joint tests include integr ity tests, active and passive
physiological movements o f the knee and
other relevan t joints, and measurement o f joint
effusion. Passive accesso ry movements complete
the joint tests and are described towards the end
o f the physical examination.
Joint integrity tests
For all of the tests below, a positive test is indicated
by excessive movement relative to the
unaffected side.
Abduction stress tests. With the patient supine
and the knee in full extension, the c linician
palpates the medial joint line of the knee and
applies an abduction force to the lower leg. This
test stresses the anterior cruciate ligaments, the
medial quadriceps expansion and the semimem-
EXAMINATION OF THE KNEE REGION 319
Figure 14.1 Abduction stress test. The left hand stabilizes
the thigh while the right hand applies the abduction force.
branosus muscle, as well as the structures below
(when the knee is f lexed). Excessive movement
suggests that one or more o f these structures has
been injured (Magee 1992).
With the knee in 20-30° o f flexion, the clinician
again applies an abduction force to the lower leg
(Fig. 14.1). I t tests the medial ligament, the posterior
oblique ligament, the posterior cruciate ligament
and the posteromedial capsule. Excessive
movement suggests that one or more o f these
structures has been injured.
Adduction stress tests. With the patient supine
and the knee in full extension, the clinician
palpates the lateral joint line and applies an
adduc tion force to the lower leg ( Fig. 14.2). This
test stresses the cruciate ligaments and the lateral
gastrocnemius muscle as well as the structures
Figure 14.2 Adduction stress test. The left hand stabilizes
the thigh while the right hand applies an adduction force.
320 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
below (when the knee is flexed). Excessive movement
suggests that one or more o f these structures
has been injured (Magee 1992).
With the knee in 20--30° of flexion and the tibia
externally rotated, the clinician again applies an
adduction fo rce to the lower leg, which tests the
lateral collateral ligament, the arcuate-popliteus
complex, the posterolateral joint capsule, the iliotibial
band and the biceps femoris tendon.
Excessive movement suggests that one o r more
o f these structures has been injured.
Anterior draw tests.
Lachman's test. This is a modified draw test (see
below) that is carried out with the patient in
supine and with the knee flexed (0--30°). The clinician
stabilizes the femur and applies a posteroanterior
force to the tibia ( Fig. 14.3). It tests
the anterior cruciate ligament, the posterior
oblique ligament and the arcuate-popliteus complex
(Magee 1992). A positive test is indicated by
a soft end feel and excessive motion and indicates
injury o f one o r more o f the structures above.
Anterior draw test. With the patient in supine, the
clinician applies a posteroanterior fo rce to the
tibia with the patient's knee flexed to 90°. It tests
the same structures as the Lachman's test and, in
addition, tests the posteromedial and posterolateral
joint capsules, the medial collateral ligament
and the iliotibial band (Magee 1992). The normal
amount o f movement is around 6 mm; excessive
motion indicates injury o f one or more of the
structures above.
Figure 14.3 Lachman's test. The patient's knee rests over
the clinician's thigh and is stabitized by the left hand. The
right hand applies a posteroanterior force to the tibia.
Figure 14.4 Posterior draw lest. The clinician sits lightly on
the patient's fool 10 stabilize the leg. The heels of both hands
apply an anteroposterior force to the tibia.
Posterior draw test. The clinician applies an
anteroposterior force to the tibia with the
patien􀂺s knee flexed to 90° (Fig. 14.4). It tests the
posterior cruciate ligament, the arcuate-popliteus
complex, the posterior oblique ligament and
the anterior cruciate ligament; excessive motion
indicates injury o f one or more o f these structures
(Magee 1992).
Slocum test for anterolateral and anteromedial
stability.
Anterolateral instability. The clinician applies a
posteroanterior force to the tibia with the knee
flexed to 90° and the foo t medially rotated to 30°
(Fig. 14.5). Excessive movement on the lateral
aspect o f the knee indicates antero lateral instability
due to injury o f one or more o f the following
structures: anterior and posterior cruciate ligaments,
posterolateral capsu le, arcuate-popliteus
com plex, lateral collateral ligament and iliotibial
band (Magee 1992).
Anteromedial instability. The clinician applies a
posteroanterior force to the tibia with the
patient's knee flexed to 90° and the foot laterally
rotated 15°. Excessive movement on the medial
aspect of the knee indicates anteromedial instability
due to injury of one or more of the following
structures: medial ligament, posterior
oblique ligament, posteromedial capsu le and
anterior cruciate ligament (Magee 1992).
lateral pivot shift for anterolateral instability.
The patient lies supine with the hip slightly
flexed and medially rotated and with the knee
Figure 14.5 Anterolateral instability. The medially rotated
lower leg is stabilized by the clinician sitting on the patient's
foot. The hands grip around the posterior aspect of the tibia
and the thumbs rest over the anterior joint space. A
posteroanterior force is applied by bolh hands and the
movement is palpated by the thumbs.
flexed. In the first part of the test, the lower leg is
medially rotated at the knee and the clinician
moves the knee into extension while applying a
posteroanterior fo rce to the fibula. The tibia subluxes
anteriorly when there is anterolateral instability.
In the second part o f the test, the clinician
applies an abduction stress to the lower leg and
passively moves the knee from extension to
flexion while maintaining the medial rotation o f
the lower leg (Fig. 14.6). A positive test i s indicated
if at about 20-40° o f knee flex ion the tibia
'jogs' backward ( reduction o f the subluxation)
Figure 14.6 Lateral pivot shift. The clinician applies an
abduction stress to the lower leg with the left hand and the
right hand passively moves the knee from extension to
flexion, while maintaining the medial rotation of the lower leg.
EXAMINATION OF THE KNEE REGION 321
and reproduces the patient's feeli ng of the knee
'giving way'. It tests the anterior cruciate ligament,
the posterolateral capsule, the arcuatepopliteus
complex, the lateral collateral ligament
and the iliotibial band (Magee 1992).
Posterolateral instability.
Posterolateral drawer lest (Hughston & Norwood
1980). The patient's knee is positioned in 80°
flex ion and some 15° rotation. The clinician
applies an anteroposterior force to the tibia. It
tests the anterior and posterior cruciate ligaments,
the arcuate-popliteus complex, the lateral
ligament and the biceps femoris tendon, and the
posterolateral capsule. If there is postero lateral
instability, the lateral tibial plateau will move
posterio rly on the fem ur.
External rotational recurvaturn test. This test examines
posterolateral instability with the knee in
extension (Hughston & Norwood 1980). The
patient lies supine and the clinician holds the heel
and extends the knee from 30° flexion while palpating
the posterolateral aspect of the knee ( Fig.
14.7). Excessive hyperextension and ex ternal rotation
o f the tibia indicate posterolateral instability.
Fairbank's apprehension lest. This tests for
patellar subluxation or dislocation. The patient's
knee is positioned in 30° o f flexion and the clinician
passively moves the patella laterally (EifertMangine
& Bilbo 1995). A positive test is
indicated by apprehension of the patient and/or
excessive movement.
Figure 14.7 External rotational recurvatum test. The right
hand holds the heel and extends the knee from 30° flexion
while the left hand palpates the posterolateral aspect of the
knee.
322 NEUROMUSCULOSKELETAL EXAMINATION ANO ASSESSMENT
Active and passive physiological joint movement
For both active and passive physiological joint
movemen t, the clinician should note the following:
• The quality of movement
• The range of movement
• The behaviour of pain through the range of
movement
• The resistance through the range of movement
and at the end of the range of movement
• Any provocation of muscle spasm.
A movement d iagram can be used to depict
this information.
Active physiological movements with overpressure.
The active movements with overpressure
A
C
listed below ( Fig. 14.8) are tested with the patient
lying supine. Movements are carried out on the
left and right sides. The clinician establishes the
patient's symptoms at rest, prior to each movemen
t, and passively corrects any movemen t
deviation to determine its relevance to the
patient's symptoms.
For the knee joint, the following should be
tested:
• Flexion
• Extension
• Hyperextension
• Medial rotation
• Lateral rotation .
B
o
Figure 14.8 Overpressures to the knee. A Flexion. The left hand supports the knee while the right hand applies overpressure
to flexion. B Extension. The left hand stabilizes the thigh while the right hand lifts the lower leg into extension. C Medial rolation.
The hip and knee are flexed to 90° and supported by the left hand. The right hand holds the heel and rotates the lower leg
medially while palpating the joint movement with the left hand. D Lateral rotation. The hip and knee are flexed to 900 and
supported by the left hand. The right hand holds the heel and rotates the lower leg laterally while palpating the joint movement
with the left hand.
Modifications to the examination of active physiological
movements. For further information
about the active range of movement the following
can be carried out:
• The movements can be repeated
• The speed of movemen t can be altered
• Movements can be combined, e.g.
flex ion/ extension with rotation
• Compression or distraction can be added
• Movements can be sustained
• The injuring movement, i.e. the movement that
occurred at the time of the injury, can be tested
• Differentiation tests.
Numerous d ifferentiation tests (Maitland
1986) can be performed; the choice depends on
the patient's signs and symptoms. For example,
when knee flex ion in prone reproduces the
A
c
EXAMINATION OF THE KNEE REGION 323
patient's anterior knee pain, differentiation
between knee joint, anter ior thigh muscles and
neural tissues may be required. Adding a compression
force through the lower leg will stress
the knee joint without particularly altering the
muscle length or neural tissue. If symptoms are
increased, this would suggest that the knee joint
(patellofemoral or tibiofemoral jOint) may be the
source of the symptoms.
Capsular pattern. T he capsular pattern for
the knee joint (Cyriax 1982) is gross limitation
of flex ion with slight limitation of extension.
Rotation is full and painless in the early
stages.
Passive physiological joint movement. All of
the active movements described above can be
examined passively with the patient in supine,
comparing left and right sides. Comparison of
B
D
Figure 14.9 Passive physiological jOint movements to the knee. A Flexion/abduction. The left hand supports the knee while
the right hand moves the knee into flexion and abduction. B Flexion/adduction. The left hand supports the knee while the right
hand moves the knee into flexion and adduction. C Extension/abduction. The left hand stabitizes the thigh while the right hand
moves the knee into extension and abduction. 0 Extension/adduction. The left hand stabilizes the thigh while the right hand
moves the knee into extension and adduction.
324 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
the response of symptoms to the active and passive
movements can help to determine whether
the structure at fault is non-contractile (articular)
or contractile (extra-articular) (Cyriax 1982). If
the lesion is non-contractile, such as ligament,
then active and passive movements
will be painful and/or restricted in the same
direction. If the lesion is in a contractile tissue
(i.e. m uscle) then active and passive movements
are painful and/or restricted in opposite
d irections.
In addition, the following can be tested
(Fig. 14.9) (Maitland 1991):
• Flexion/abduction
• Flexion / add uction
• Ex tension/abduction
• Extension/adduction.
Other joints
Other joints need to be examined to prove or disprove
their relevance to the patien􀂺s condition.
The joints most l ikely to be a source of the sym ptoms
are the lumbar spine, sacroiliac joint, hip
jOint, foot and ankle. These joints can be tested
fully or, if they are not suspected to be a source of
symptoms, the relevant clearing tests can be used
(Table 14.2).
Joint effusion
The clinician measures the circumference of the
joint using a tape measure and com pares left and
right sides.
Table 14.2 Clearing tests
Joint Physiological Accessory
movement movement
Lumbar spine Flexion and quadrants All movements
Sacroiliac joint Anterior and
posterior gapping
Hip joint Squat and hip
quadrant
Ankle joint Plantarflexion!
dorsiflexion and
inversion/eversion
Muscle tests
M uscle tests include examining muscle strength,
(ontroe length, isometric contraction and muscle
bulk.
Muscle strength
The clinician tests the knee flexors/extensors and
the ankle dorsiflexors/plantarflexors and any
other relevan t muscle groups. For details of these
general tests, the reader is directed to Dan iels &
Worthingham ( 1986), Cole et al ( 1988) or Kendall
et al ( 1993).
Greater detail may be required to test the
strength of individual muscles, in particular those
muscles prone to become weak, i.e. gluteus maximus,
medius and m inim us, vastus latera lis, medialis
and intermedius, tibialis anterior and the
peronei Uull & Janda 1987). Testing the strength of
these muscles is described in Chapter 3 .
Muscle control
An imbalance of the vastus medialis oblique
(VMO) and the vastus lateralis can occur in patients
with patellofemoral pain (Mariani &
Caruso 1979, Voight & Wieder 1991). On quadriceps
con traction, the patella may glide laterally,
as a result of weakness of VMO (McConnell
1996) and may con tract after vastus lateralis
(VOight & Wieder 1991). The timing of activation
of VMO and vastus latera lis can be more objectively
assessed using a dual-channel biofeedback
machine. In addition, the inferior pole of the
patella may be displaced posteriorly as the
quadriceps contracts, which may result in fat pad
irritation (McConnell 1996).
Muscle length
The clinician checks the length of individual
muscles, in particular those muscles prone to
become short, i.e. the erector spiJlae, quadratus
lumborum, piriformis, itiopsoas, rectus fernoris,
tensor fasciae latae, hamstrings, tibialis posterior,
gastrocnem ius and soleus Uull & Janda 1987).
Testing the length of these muscles is described
in Chapter 3 .
Isometric muscle testing
Test knee flexors (with tibia mediaUy and laterally
rotated to stress, in particular, the lateral and
medial hamstrings, respectively), extensors and
ankle dorsi flexors and plantarflexors in resting
position and, if indicated, in different parts of the
physiological range. In addition the clin ic ian
observes the quality of the muscle con traction to
hold this position (this can be done with the
patient's eyes shut). The patient may, for example,
be unable to prevent the joint from moving
or may hold with e xcessive muscle activity;
either of these circumstances would suggest a
neuromuscular dysfunction.
Muscle bulk
Measure the circu mference of the muscle bulk of
the thigh and calf with a tape measure. The following
measurements on the left and right sides
are usually taken and compared (Magee 1992):
• 15 cm below the apex of the patella
• 5 cm above the base of the patella
• 8 cm above the base of the patella
• 15 cm above the base of the patella
• 23 cm above the base of the patella.
Ouadriceps (0) angle
The definition of this varies slightly in the literature.
McCon nell (1986) defines it as 'the angle
formed by the intersection of the line of pull of
the quadriceps muscle and the patellar tendon
measured through the centre of the patella'. The
normal outer value is 13-15°.
Neurological tests
Neurological examination involves exaullmng
the integrity and mobility of the nervous system.
Integrity of the nervous system
The integrity of the nervous system is tested if
the clinician suspects the symptoms are e manating
from the spine or from a peripheral nerve.
EXAMINATION OF THE KNEE REGION 325
Dermatomes/perlpheral nerves. Light touch and
pain sensation of the lower limb are tested using
cotton wool and pinprick respectively, as
described in Chapter 3. A knowledge of the cutaneous
distribution of nerve roots (derma tomes)
and peripheral nerves enables the clinician to
distinguish the sensory loss due to a root lesion
from that due to a peripheral nerve lesion. The
cu taneous nerve d istribution and dermatome
areas arc shown in Figure 3 . 2 1 .
Myotomesiperipheral nerves. The following
myotomes are tested and are shown in F igure
3.27:
• L2 - hip flexion
• L3 - knee extension
• L4 - foot dorsiflexion and inversion
• L5 - e xtension of the big toe
• 51 - eve rsion of the foot, contract bu ttock,
k nee flexion
• 52 - knee flexion, toe standing
• 53-4 - muscles of pelvic floor, bladder and
gen ital function.
A working knowledge of the muscular distribution
of nerve roots ( myotomes) and peripheral
nerves enables the clinician to distinguish the
motor loss due to a root lesion from that due to a
peripheral nerve lesion . The peripheral nerve
distribu tions are shown in Figure 3.25.
Rellex testing. The following deep tendon
reflexes are tested and are shown in Figure
3 .28:
• L3/4 - knee jerk
• 51 - ankle jerk.
Mobility of the nervous system
The following neurodynamic tests may be carried
out in order to ascertain the degree to which
neural tissue is responsible for the production of
the patient's symptom(s):
• Passive neck flexion (PNF)
• Straight leg raise (SLR)
• Passive knee bend (PKB)
• Slump.
These tests are described in detail in Chapter 3.
326 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Special tests
Vascular tests
If the circ ulation is suspected of being compromised,
the clinician palpates the pulses of the
femoral, popliteal and dorsalis pedis arteries.
The state of the vascular system can also be
determined by the response of symptoms to
positions of dependency and elevation of the
lower limbs.
Leg length
True leg length is measured from the anterior
superior iliac spine (ASIS) to the medial or lateral
malleolus. Apparent leg length is measured from
the umbilicus to the medial or lateral malleolus.
A difference in leg length of up to 1-1.3 cm is
considered normal. If there is a leg length d ifference,
test the length of individual bones, the tibia
with knees bent and the femurs in standing.
Ipsilateral posterior rotation of the ilium (on the
sacrum) or contralateral anterior rotation of the
ilium will result in a decrease in leg length
(Magee 1992).
Supine to sit test
This is where one leg appears longer i n supine
and shorter in long sitting. This implicates anterior
innominate rotation on the affected side
( Wadsworth 1988).
McMurray test for medial meniscus
The clinician palpates the medial joint line and
passively nexes and then laterally rotates the
knee so that the posterior part of the medial
meniscus is rotated with the tibia - a 'snap' of the
joint will occur if the meniscus is torn. The joint is
then moved from this fully nexed position to 90°
nexion so that the whole of the posterior part of
the meniscus is tested (Fig. 14.10). A positive test
occ urs if the clinician feels a c lick, which may be
heard, indicating a tear of the medial meniscus
(McMurray 1942).
Figure 14.10 McMurray test for medial meniscus. The lett
hand supports the knee and palpates the medial joint line.
The right hand laterally rotates the lower leg and moves the
knee from full flexion to 90° flexion.
McMurray test for lateral meniscus
TI,e clinician palpates the lateral joint line and passively
nexes and then medially rotates the knee so
that the posterior part of the lateral meniscus is
rotated with the tibia - a 'snap' occurs if the meniscus
is tom. The joint is then moved from this fully
nexed position to 90° nexion, so that the whole of
the posterior part of the meniscus is tested (Fig.
14.11). A positive test occurs if the clinician feels a
click, whim may also be heard, indicating a tear of
the lateral meniscus (McMurray 1942).
Apley compression/distraction test
The patient lies prone with the knee nexed to 90°.
The clinic ian then medially and laterally rotates
the tibia with distraction and then compression
Figure 14.11 McMurray test for lateral meniscus. The left
hand supports the knee and palpates the lateral joint line.
The right hand medially rotates the lower leg and moves the
knee from full flexion to goo flexion.
Figure 14.12 Apley compression/distraction lest. The
clinician gently rests his/her leg over the back of the patient's
thigh to stabilize and then grasps around the lower calf to
rotale and distract the knee. No stabilization is required for
compression.
( Fig. 1 4. 1 2 ). If symptoms are worse on compression,
this suggests a meniscus injury; if they are
worse on distraction, this suggests a ligamentous
injury ( Apley 1947).
Suprapatellar plica test (Hughston et a1 1 984)
Symptoms can arise from inflammation of the
synovial fold around the supramedial pole of the
Figure 14.13 Test for suprapatellar plica. The right hand
maintains medial rOlation at the knee and moves the knee into
flexion and extension, white the left hand applies a medial
glide to the patella and palpates the medial femoral condyle.
EXAMINATION OF THE KNEE REGION 327
patella, which is often caused by direct trauma to
the knee. The patient lies supine and, with the
knee flexed and medially rotated, the clinician
applies a medial glide to the patella while palpating
the medial femoral condyle (Fig. 14.13). The
knee is flexed and extended; a 'popping' fe lt over
the femoral condyle and tenderness are positive
findings, indicating an inflamed suprapatellar
plica.
Infrapatellar fat pad test (Wilson, personal
communication, 1 996)
With the patie nt's hip and knee flexed to 90° the
clinician applies slight pressure to the fat pad
(either side of the patellar tendon) and passive ly
extends the knee ( not hyperex tension). A positive
test indicating fat pad irritation is indicated
when the patient's pain is reproduced towards
the end of range from 10° flexion to full extension.
McConnell test for chondromalacia patellae
The patient lies in high sitting with the femur laterally
rotated. The patient isometrically contracts
the quadriceps muscle for 10 seconds in various
angles of knee flexion (0, 30, 60, 90 and 1 20°). If
pain is produced, the test is repeated with the
clinician holding a medial glide to the pate lla; if
symptoms are eased this is indicative of chondromalacia
patellae (McConne ll 1986).
Balance test
Balance is provided by vestibular, visual and
proprioceptive information. This rather crude
and non-specific test is conducted by asking the
patient to stand on one leg with the eyes open
and then closed. If the patient's balance is as poor
with the eyes open as with the eyes dosed, this
suggests a vestibular or proprioceptive dysfunction
( rather than a visual dysfunction). The test is
carried out on the affected and unaffected side; if
there is greater difficulty maintaining balance on
the affected side, this may indicate some proprioceptive
dysfunction.
328 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Measurement of oedema
If there is oedema present, measure the circumfe
rence of the thigh and/or calf with a tape
measure and compare left and right sides.
Functional ability
Some functional ability has already been tested by
the general observation of the patient during the
subjective and physical examination, e.g. the postures
adopted during the subjective examination
and the ease or difficulty of undressing and c hanging
position prior to the examination. Any further
functional testing can be carried out at this point in
the examination and may include lifting, sitting
postures, gait analysis, etc. Clues for appropriate
tests can be obtained from the subjective examination
findings, particularly aggravating factors.
There are a variety of functional scales that can be
used for the knee; these include the Cincinnati rating
system for anterior cruciate ligament insufficiency
(Noyes et al 1984) and the Knee Society
rating scale ( (nsall et aI 1989).
Palpation
The clin ician palpates the knee region and any
other relevant areas. It is useful to record palpation
findings on a body chart (see Fig. 2 .4)
and/or palpation chart (Fig. 3.37).
The clin ician should note the following:
• The temperature of the area
• Localized increased skin moisture
• The presence of oedema or e ffusion - the
c linician examines with the patella tap and
fluid displacement test to assess if joint
e ffusion is present
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules, scar tissue
• The presence or elicitation of any muscle spasm
• Tenderness of bone (the upper pole of the
patella and the femoral condyle may be tender
in plica syndrome, while the undersurface of
the patella may be tender with patellofemoral
joint problems), bursae (prepatellar,
infrapatellar), ligaments, muscle, tendon,
tendon sheath, trigger points (shown in Fig.
3.38) and nerve. Palpable nerves in the lower
limb are as follows:
- The sciatic nerve can be palpated twothirds
of the way along an imaginary line
between the greater trochanter and the
ischial tuberOSity with the patient in prone
- The common peroneal nerve can be palpated
medial to the tendon of biceps femoris and
also around the head of the fibula
- The tibial nerve can be palpated centrally
over the posterior knee crease medial to the
popliteal artery; it can also be felt behind the
medial malleolus, which is more noticeable
with the foot in dorsiflexion and eversion
- The superficial peroneal ne rve can be
palpated on the dorsum of the foot along
an imaginary line over the fourth
metatarsal; it is more noticeable with the
foot in plantar flexion and inversion
- The deep peroneal nerve can be palpated
between the first and second metatarsals,
lateral to the extensor hallucis tendon
- The sural nerve can be palpated on the
lateral aspect of the foot behind the lateral
malleolus, lateral to the tendocalcaneus
• Increased or decreased prominence of bones observe
the position of the patella in terms of
glide, lateral tilt, anteroposterior tilt and
rotation on the femoral condyles (see be low)
(McConnell 1996)
• Pain provoked or reduced on palpation.
Increased or decreased prominence of bones.
The optimal position of the patella is one where
the patella is parallel to the femur in the frontal
and sagittal planes and the patella is midway
between the two condyles of the femur when the
knee is flexed to 20' (Grelsamer & McConnell
1998). In terms of the position of the pate lla, the
following should be noted:
• T he base of the patella normally lies equidistant
(± 5 mm) from the medial and lateral femoral
e picondyles when the knee is flexed 20'. If the
patella lies closer to the medial or lateral
fe moral e picondyle, it is considered to have a
medial or lateral glide respectively. The
clin ic ian also needs to test for any lateral glide
of the pate lla on quadriceps contraction. The
clin ician palpates the left and right base of the
patella and the vastus medialis oblique and
vastus lateraHs with thumbs and fingers
respectively while the patient is asked to
extend the knee. In some cases the patella is
felt to glide laterally, indicating a dynamic
problem, and vastus medialis oblique (which
shou ld be activated Simultaneously with or
slightly earlier than vastus lateralis) may be
felt to contract after vastus lateralis.
• The lateral tilt is calculated by measuring the
distance of the medial and lateral borders of
the patella from the fe mur. The pate lla is
considered to have a lateral tilt, for example,
when the distance is decreased on the lateral
aspect and increased on the medial aspect
such that the patella faces laterally. A lateral
tilt is considered to be due to a tight lateral
retinaculum (supe rficial and deep fibres) and
iliotibial band. When a passive medial glide is
first applied (see be low), the patellar tilt may
be accentuated, indicating a dynamic tilt
proble m implicating tight lateral retinaculum
(deep) fibres.
• The allteroposterior tilt is calculated by
measuring the distance from the inferior and
superior poles of the patella to the femur.
Posterior tilt of the patella occurs if the inferior
pole lies more posteriorly than the superior pole
and may lead to fat pad irritation and inferior
patellar pain. Dynamic control of a posterior
patellar tilt is tested by asking the patient to
brace the knee back and observing the
movement of the tibia. With a positive patellar
tilt the foot moves away from the couch and the
proximal end of the tibia is seen to move
posteriorly; this movement is thought to pull
the inferior pole of the patella into the fat pad.
• Rotation is the relative position of the long axis
of patella to the femur, which should be
parallel in the normal. The patella is
considered to be laterally rotated if the inferior
pole of the patella is placed laterally to the
long axis of the femur. A lateral or medial
rotation of the patella is considered to be due
to tightness of part of the retinaculum. The
most common abnormality seen in
patellofemoral pain is both a lateral tilt and a
lateral rotation of the patella, which is thought
to be due to an imbalance of the medial
EXAMINATION OF THE KNEE REGION 329
( weakness of vastus medialis oblique ) and
lateral structures (tightness of the lateral
retinaculum and/ or weakness of vastus
latera lis) of the patella (McConnell 1996).
• Testillg tlie lellgtli of tlie lateral retinacululIl. With
the patient in side lie and the k nee flexed 20',
the clinician passively glides the patella in a
medial direction. The patella shou ld move
sufficiently medially to expose the lateral
femoral condyle; if this is not possible then
tightness of the superficial retinaculum is
suspected. The deep retinaculum is tested as
above, but with the addition of an
anteroposterior force to the medial border of
the patella. The lateral border of the patella
should be able to move anteriorly away from
the femur; inability to do this indicates
tightness of the deep retinaculum .
Accessory movements
It is useful to use the palpation chart and movement
diagrams (or joint pictures) to record findings.
These are explained in detail in Chapter 3.
The clinician shou ld note the following:
• The quality of movement
• The range of movement
• The resistance through the range and at the
end of the range of movement
• The behaviour of pain through the range
• Any provocation of muscle spasm.
Patel/ofemoral joint accessory movements
P a te llofemoral )01l1t accessory movements
(Fig. 14.14) are as follows (Maitland 1991):
med
lat
ceph
caud
Comp
Distr
medial transverse
lateral transverse
longitudinal cephalad
longitudinal caudad oblique
medial rotation (Fig. 14.15)
lateral rotation
medial tilt ( Fig. 14.15)
lateral tilt
compression
distraction.
330 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Tibiofemoral joint accessory movements
Tibiofemoral joint accessory movements (Fig.
14.16) are as follows (Maitland 1991):
anteroposterior
posteroanterior
med medial transverse
lat lateral transverse.
Superior tibiofibular joint accessory movements
Superior tibiofibular joint accessory movements
(Fig. 14 . 17 ) are as follows (Maitland 1991):
anteroposterior
posteroanterior
ceph longitudinal cephalad by e version of
the foot
caud longitudinal caudad by inversion of
the foot.
For fu rther information when examining the
accessory movements, alter the:
A
C
• Speed of force application
• Direction of the applied force
• Point of application of the applied force
• Position of the joint - in lying, the knee can be
placed in a variety of resting positions, such as
flexion, e xtension, medial or lateral rotation,
or a combination of these movements.
Following accessory movements, the clinician
reassesses all the asterisks (movements or tests
that have bee n fou nd to reproduce the patient's
symptoms) in order to establish the e ffect of
accessory movements on the patient"s signs and
symptoms. This helps to prove/disprove the
structure(s) at fault.
Other joints as applicable
Accessory movements can then be tested for other
joints suspected to be a source of symptoms and
by reassessing the asterisks the clinician is then
able to prove/disprove the structure(s) at fau lt.
Joints likely to be examined are the lumbar spine,
sacroiliac joint, hip joint, foot and ankle.
B
D
Figure 14.14 PateUofemoral joint accessory movements. A Medial transverse. The thumbs move the patella medially.
B Lateral transverse. The fingers move the patella laterally.
E
G
(
A
EXAMINATION OF THE KNEE REGION 331
F
H
Flgur. 14.14 (cont·d)
C Longitudinal cephalad. The right hand pushes the patella
in a cephalad direction while the left hand helps to guide the
movement. 0 Longitudinal caudad. The left hand pushes the
patella in a caudad direction while the right hand helps to
guide the movement. E Oblique. The patella can, for
example, be moved in a superior and medial direction.
F Medial rotation. The thumbs and fingers grasp around the
base and pole of the patella and rotate it medially. G Medial
tilt. The thumbs and fingers grasp around the base and pole
of the patella and push the medial border towards the femur
and raise the lateral border. H Compression. The hands rest
over the anterior aspect of the patella and push the patella
towards the femur. I Distraction. The thumbs and fingers
grasp around the base and pole of the patella and lift it away
from the femur.
B
Figure 14.15 Rotation movements at the patellofemoral joint. A Medial and lateral rotation in the coronal plane.
B Medial titt in the sagittal plane. (From Maitland 1991, with permission.)
A
332 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
A
C
B
D
Figure 14.16 Tibiofemoral joint accessory movements. A Anteroposterior. The knee is placed in goo of lIexion and the
clinician lightly sits on the patient's foot to stabilize this position. Both thumbs are then placed around the anlerior aspect of the
tibia to apply an anteroposterior force to the knee. B Posteroanterior. The knee is placed in 90° of flexion and the clinician lightly
sits on the patient's foot to stabilize this position. The fingers grasp around the posterior aspect of the calf to apply the force,
while the thumbs rest over the anterior joint line to feel lhe movement. C Medial lransverse. The left hand stabilizes the medial
aspect of the thigh while the right hand applies a medial force to the tibia. 0 Lateral transverse. The left hand stabilizes the
lateral aspect of the thigh while the right hand applies a lateral force to the tibia.
Figure 14.17 Superior tibiofibular joint accessory movements. A Anteroposterior. Thumb pressures are used to apply an
anteroposterior force to the anterior aspect of the head of the fibula. B Posteroanterior. Thumb pressures are used to apply a
posteroanterior force to the posterior aspect of the head of the fibula.
B
Mobilizations with movement (MWMs) (Mulligan
1 995)
Tibiofemoral joint. A medial glide is applied
with medial joint pain and a lateral glide with
lateral joint pain. The patient lies prone and the
clinician stabilizes the thigh and applies a glide
to the tibia using a seat belt around the tibia
(Fig. 14.18). The glide is then maintained while
the patient actively flexes or extends the knee.
An increased range of movement which is
pain-free would indicate a mechanical joint problem.
Another MWM can be used for patients who
have at least 80° k nee flexion. In supine, a posterior
glide of the tibia is applied by the clinician
while the patient flexes the knee (Fig. 14.19).
Increased range of movement which is pain-free
would indicate a mechanical joint problem.
Superior tibiofibular joint. This test is carried
ou t if the patient has posterolateral knee pain.
The patient in lying or standing actively flexes or
extends the knee while the clinician applies an
anteroposterior or posteroanterior glide to the
fibula head ( Fig. 14.20). Once again, increased
range of movement that is pain-free would indicate
a mechanical jOint problem.
Figure 14.18 Mobitization with movement for knee flexion.
The right hand stabilizes the thigh and the seat belt around
the lateral aspect of the tibia allows the clinician to apply a
medial glide while the patient actively flexes the knee.
EXAMINATION OF THE KNEE REGION 333
COMPLETION OF THE EXAMINATION
Having carried out all the above tests, the examination
of the knee region is now complete. The
subjective and physical examinations produce
a large amount of information, which needs
to be recorded accurately and quickly. An ou t-
Figure 14.19 Mobilization with movement for knee flexion.
The right hand supports the thigh and the left hand applies
an anteroposterior glide to the tibia white the patient actively
flexes. which is enhanced by the use of a seat belt.
Figure 1 4.20 Mobilization with movement for the proximal
tibiofemoral joint. The clinician applies an anteroposterior
glide to the fibula head as the patient actively flexes the knee
in standing.
334 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
SUbjective examination
Body chart
/j
(
- -
-
􀀄
Relationship of symptoms
.....
. 􀀂

Name
Age
Date
24 hour behaviour
Function
Improving Static
Special Questions
General health
Weight loss
RA
Drugs
Steroids
Anticoagulants
X·ray
Worsenmg
Cord/cauda eqwna symptoms
Aggravating factors
Severe Irntable
Easing factors
I
No pain
Figure 14.21 Knee examination chart.
HPC
PMH
SH & FH
I
Pain as bad as It
Imenslty of pam could possibly be
Physical examination
Observation
Jom! tests
JOint Integnty tests
(abduction/adduction stress tests,
Lachman's test, anterior and posterior
drawer, Slocum test, lateral Pivot
sMt. posterolateral drawer test.
Fairbank's apprehensive lest)
Active and passive JOint movement
Flexion/extension
Hyperextension
Medial/lateral rOtation
Flexion/abduction
Flexlon/adductJon
Extension/abduction
ExtenSion/adduCllon
Capsular pattern Ves No
JOint effuSion
Other JOints
Muscle tests
Muscle strength
Muscle control
Muscle length
1sometrlc muscle tests
Figure 14.21 (cont'di
Muscle bulk
Q angle
EXAMINATION OF THE KNEE REGION 335
NeurologIcal rests
Integnty of the nervous system
Mobility of the nervous system
Special tests
(pulses. leg length, supine to Sit
test, McMurray's menlscal tests,
Apley's compresslon/d,stracllon tests,
plica test, fat pad test, McConnell's tests,
balance test. oedema)
Function
Palpation
Accessory movements
Other JOints
MWMs
336 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
line examination chart may be useful for some
clinicians and one is suggested in Figure 14 . 2 1 . It
is important, however, that the clinician does
not examine in a rigid manner, simply following
the suggested sequence outlined in the chart.
Each patient presents differently and this should
be reflected in the examination process. It is vital
at this stage to highlight with an asterisk (.)
important findings from the examination. These
findings must be reassessed at, and within, subsequent
treatment sessions to evaluate the effects
of treatment on the patient's condition.
On completion of the physical examination the
clinician should:
• Warn the patient of possible exacerbation u p
to 24-48 hours following the examination.
REFERENCES
Aptey A C 1947 The diagnosis of meniscus injuries: some
new clinical methods. Journal of Bone and Joint Surgery
298: 78-1W
Cole J II. Furness A L, Twomey L T 1988 Muscles in action,
an approach to manual muscle testing. Churchill
Livingstone, Edinburgh
Cyriax 1 1982 Textbook of orthopaedic medicine - diagnosis
of soft tissue lesions, 8th edn. Bailli􀃝re Tindall,
London
Daniels L, Worthingham C 1986 Muscle testing, techniques
of manual examination, 5th edn. W B s..1unders,
Philadelphia, PA
Eifert-Mangine M A, Bilbo J T 1995 Conservative
management of patellofemoral chondrosis. In:
Mangine R E (cd) Physical therapy of the knee, 2nd edn.
Churchill Livingstone, New York, ch 5, p J 1 3
Grelsamer R, McConnell J 1998 TIle patella i n a team
approach. Aspen, Gaithersburg, MD
Grieve G P 1981 Common vertebral joint problems. Churchill
Livingstone, Edinburgh
Grieve G P 1991 Mobilisation of the spine, 5th edn. Churchill
Livingstone, Edinburgh
t lughston J C, Norwood L A 1980 The posterolateral drawer
test and external rotation.'ll recurvatum lest for
posterolateral rotary instability of the knee. Clinical
Orthopaedics and Related Research 147: 82-87
I lughston 1 C, Walsh W M, Puddu G 1984 Patellar subluxation
and dislocation. W B Saunders, Philadelphia, PA
Ins.111 J N, Dorr L D, Scott R D, Scott W N 1989 Rationale of
the knee society clinical rating system. Clinical
OrthopaediCS and Related Research 248: 13-14
Jacobson K E, Aandry F C 1989 Diagnosis of anterior knee
pain. Clinics in Sports Medicine 8(2): 179-195
lull C A, Janda V 1987 Muscles and motor control in low
back pain: assessment and management. In: Twomey L T,
• Request the patient to report details on the
behaviour of the symptoms following
examination at the next attendance.
• Explain the findings of the physical
examination and how these findings relate to
the subjective assessment. An attempt should
be made to dear up any misconceptions patients
may have regarding their illness or injury.
• Evaluate the findings, formulate a clinical
diagnOSis and write up a problem list.
Clinicians may find the management planning
forms shown in Figures 3.51 and 3.52 helpful
in guiding them through what is often a
complex clinical reasoning process.
• Determine the objectives of treatment.
• Devise an initial treatment plan.
Taylor 1 R (eels) Physical therapy of the low back. Churchill
Livingstone, New York, ch 10, p 253
Kendall F P, McCreary E K, Provance P G 1993 Muscles
testing and function, 4th edn. Williams & Wilkins,
Baltimore, MD
McConnell J 1986 The management of chondromalacia
patellae: a long term solution. Australian Journal of
PhYSiotherapy 32(4): 215-223
McConnell J 1996 Management of p.1tellofcmoral problems.
Manual Therapy 1 (2): 60-66
McMurray T P 1942 The semilunar cartilages. British Journal
of Surgery 29( 1 1 6): 407-114
Magee D J 1992 Orthopedic physical Jsst'Ssment, 2nd L>dn.
W B Saunders, Philadelphia, PA
Maitland G D 1986 Vertebral manipulation, 5th edn.
Butterworths, London
Maitland G D 1991 Peripheral manipulation, 3rd cdn.
Butterworths, London
Mariani P P, Caruso 1 1979 An electromyographic
investigation of subluxation of the patella. Journal of Bone
and Joint Surgery 61 B(2): 169-171
Mulligan B R 1995 Manual therapy 'nags', 'snags', 'MWM<;'
etc., 3rd edn. Plant View Services, New Zealand
Noyes F R, McGinniss G H, Moo..1r L A 1984 Functional
disability in the anterior cnlCiate insufficient knee
syndrome - review of knee rating systems and projected
risk factors in determining treatment. Sports Medicine 1 :
278-302
Voight M L, Wieder 0 L 1991 Comparative reflex response
times of vastus medialis obliquus and vastus lateral is in
normal subjects and sub,ects with extensor mechanism
dysfunction. American Journal of Sports Medicine 19(2):
131-137
Wadsworth C T 1988 Manual examination and treatment of the
spine and extremities. Williams & Wilkins, Baltimore, MD
CHAPTER CONTENTS
Possible causes of pain and/or limitation of
movement 337
Subjective examination 339
Body chart 339
Behaviour of symptoms 339
Special questions 340
History of the present condition (HPC) 341
Past medical history (PMH) 341
Social and family history 341
Plan of the phYSical examination 342
Physical examination 342
Observation 342
Joint tests 343
Muscle tests 347
Neurological tests 347
Special tests 348
Functional ability 349
Palpation 349
Accessory movements 354
Completion of the examination 356
Examination of the foot
and ankle
POSSIBLE CAUSES OF PAIN ANDIOR
LIMI TATION OF MOVEMENT
This region includes the inferior tibiofibular,
talocrural, subtalar, midtarsal, tarsometatarsal,
intermetatarsal, metatarsophalangeal, 1 st and
5th rays and interphalangeal joints with their
surrounding soft tissues. A ray is a functional
unit formed by a metatarsal and its associated
cuneiform; for the 4th and 5th rays it refers to
the metatarsal alone (Norkin & Levangie 1992).
Ankle
• Trauma
- Fracture of the tibia, fibula, e.g. Pott's
fracture
- Ligamentous sprain, e.g. medial or lateral
ligament of the ankle and inferior
tibiofibular ligaments
- Muscular strain, e.g. peritendinitis of
tendocalcaneus and rupture of the tendocalcaneus
Tarsal tunnel syndrome
Tenosynovitis
• Osteochondritis dissecans of the talus
• Degenerative conditions - osteoarthrosis
• Inflammatory conditions - rheumatoid
arthritis
• Infection, e.g. tuberculosis
• Endocrine diseases-diabetes
337
338 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Foot
Childhood foot
• Congenital talipes equinovarus (idiopathic
club foot)
• Talipes calcaneovalgus
• In- and out-toeing (adducted and abducted
stance respectively)
• Over-pronated foot
• Pes cavus and planus
• Kohler's disease (osteochondritis of the
navicular)
• Freiberg's disease of lesser metatarsal
heads (commonly 2nd)
• Sever's disease causing a painful heel
• Retrocalcaneal bump (soft tissue or bony)
• Malignancy
Adolescent foot
• Hallux valgus
• Exostoses
• Retrocalcaneal heel bumps (soft tissue or
bony)
Adult foot
• Rheumatoid arthritis
• Gout
• Diabetic foot
• Paralysed foot, e.g. upper or lower motor
neurone lesion, peripheral nerve injury
• Overuse syndrome and foot strain
Hind fool
• Retrocalcaneal heel bumps (soft tissue or
bony)
• Hindfoot varus and valgus
• Soft tissue conditions e.g. bursitis, tendinitis,
fat pad bruising
Forefoot
• Brailsford's disease (osteochondritis of the
navicular)
• Forefoot varus and valgus, forefoot adduction
and abduction
• Over/excessive pronation
• Pes cavus and planus
• Plantar fasciitis and plantar calcaneal aesthesiopathy
• Anterior metatarsalgia
• March fracture
• Freiberg's disease (osteochondritis of 2nd
metatarsal head)
• Morton's metatarsalgia
• Verruca pedis
• Ligamentous strain/overuse injury
Toes
• Hallux valgus
• Hallux rigidus
• Hallux flexus
• Ingrowing toenail
• Lesser toe deformity, e.g. hammer toe, mallet
toe, claw toe
• Plantarflexion of big toe
Other conditions
• Hypermobility
• Referral of symptoms from the lumbar
spine, sacroiliac joint, hip or knee to the
foot; or referral of foot structure and
functional anomalies to more proximal
structures in the locomotor system
Further details of the questions asked during the
subjective examination and the tests carried out
in the physical examination can be found in
Chapters 2 and 3 respectively.
The order of the subjective questioning and the
physical tests described below can be altered as
appropriate for the patient being examined.
SUBJECTIVE EXAMINATION
Body chart
The following information concerning the type
and area of current symptoms should be recorded
on a body chart (see Fig. 2.4).
Area of current symptoms
Be exact when mapping out the area of the symptoms.
Lesions of the joints in this region usually
produce localized symptoms over the affected
joint. Ascertain which is the worst symptom and
record where the patient feels the symptoms are
coming from.
Areas relevant to the region being examined
Clear all other areas relevant to the region being
examined, especially between areas of pain,
paraesthesia, stiffness or weakness. Mark these
unaffected areas with ticks (,I) on the body chart.
Check for symptoms in the lumbar spine, hip
joint and knee joint.
Quality of pain
Establish the quality of the pain.
Intensity of pain
The intensity of pain can be measured using, for
example, a visual analogue scale (V AS) as shown
in the examination chart at the end of this chapter
(Fig. 15.1 1 ).
Depth of pain
Discover the patient's interpretation of the depth
of the pain.
EXAMINATION OF THE FOOT AND ANKLE 339
Abnormal sensation
Check for any altered sensation (such as paraesthesia
or numbness) over the ankle and foot and
other relevant areas.
Constant or intermittent symptoms
Ascertain the frequency of the symptoms,
whether they are constant or intermittent. I f
symptoms are constant, check whether there is
variation in the intensity of the symptoms, as
constant unremitting pain may be indicative of
neoplastic d isease.
Relationship of symptoms
Determine the relationship of the symptomatic
areas to each other - do they come together or
separately? For example, the patient could have
ankle pain without back pain or they may always
be present together.
Behaviour of symptoms
Aggravating factors
For each symptomatic area, discover what movements
and/or positions aggravate the patient's
symptoms, i.e. what brings them on (or makes
them worse), how long it takes to aggravate them
and what happens to other symptom(s) when
one symptom is produced (or made worse).
These questions help to confirm the relationship
between the symptoms.
The clinician also asks the patient about theoretically
known aggravating factors for structures
that could be a source of the symptoms.
Common aggravating factors for the foot and
ankle are stair climbing, walking and running,
especially on uneven ground. Aggravating factors
for other joints, which may need to be
queried if any of these joints is suspected to be a
source of the symptoms, are shown in Table 2.3.
Easing factors
For each symptomatic area, the clinician asks
what movements and/or positions ease the
340 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
patient's symptoms, how long it takes to ease
them and what happens to other symptoms
when one symptom is relieved. These questions
help to confirm the relationship of symptoms.
The clinician asks the patient about theoretically
known easing factors for structures that could be a
source of the symptoms. For example, symptoms
from the foot and ankle may be relieved by
weight-relieving positions, whereas symptoms
from the lumbar spine may be relieved by lying
prone or in a crook lie. The cHnician should
analyse the position or movement that eases the
symptoms in order to help determine the structure
at fault.
Severity and irritability of symptoms
Severity and irritability are used to identify
patients who will not be able to tolerate a full
physical examination. If the patient is able to sustain
a position that reproduces their symptoms
then the condition is considered to be non-severe
and overpressures can be applied in the physical
examination. If the patient is unable to sustain
the position, the condition is considered severe
and no overpressures should be attempted.
If symptoms ease immediately following provocation
then the condition is considered to be nOI1-
irritable and all movements can be tested in the
physical examination. If the symptoms take a few
minutes to ease, the symptoms are irritable and
only a few movements should be attempted to
avoid exacerbating the patien􀄠s symptoms.
Twenty-four hour behaviour of symptoms
The clinician determines the 24-hour behaviour
of symptoms by asking questions about night,
morning and evening symptoms.
Night symptoms. The following questions
should be asked:
• Do you have any difficulty getting to sleep?
• What position is most comfortable/
uncom fortable?
• What is your normal sleeping position?
• What is your present sleeping position?
• Do your symptom(s) wake you at night? If so,
- Which symptom(s)?
- How many times in the past week?
- How rnany times in a night?
- How long does it take to get back to sleep?
Morning and evening symptoms. The clinician
determines the pattern of the symptoms first
thing in the morning, through the day and at the
end of the day. ote whether the feet are painful
on first getting out of bed, which suggests plantar
fasciitis.
Function
The clinician ascertains how the symptoms vary
according to various daily activities, such as:
• Static and active postures, e.g. standing,
walking (even and uneven ground), running,
going up and down stairs, etc. Establish which
is the patient's dominant side.
• Work, sport and social activities that may be
relevant to the knee region or other related
areas.
Detailed information about each of the above
activities is useful to help determine the structure
at fault and to identify clearly the functional
restrictions. This information can be used to
determine the aims of treatment and any advice
that may be required. The most important functional
restrictions are highlighted with asterisks C") and reassessed at subsequent treatment sessions
to evaluate treatment intervention.
Stage of the condition
In order to determine the stage of the condition,
the clinician asks whether the symptoms
are getting better, getting worse or remaining
unchanged.
Special questions
Special questions must always be asked as they
may identify certain precautions or absolute contraindications
to further examination and treatment
techniques (Table 2.4). As mentioned in
Chapter 2, the clinician must differentiate
between conditions that are suitable for manipulative
therapy and sy temic, neoplastic and other
non-neuromusculoskeletal conditions, which are
not suitable for such treatment and require referral
to a medical practitioner.
The following information should be obtained
routinely for all patients.
General health. The clinician ascertains the state
of the patient's general health and finds out if the
patient suffers from any malaise, fatigue, fever,
nausea or vomiting, stress, anxiety or depression.
Weight loss. Has the patient noticed any recent
unexplained weight loss?
Rheumatoid arthritis. Has the patient (or a
member of his/her family) been diagnosed as
having rheumatoid arthritis?
Drug therapy. What drugs are being taken by the
patient? Has the patient been prescribed long-term
(6 months or more) medication/steroids? Has the
patient been taking anticoagulants recently?
X-rays and medical imaging. Has the patient
been X-rayed or had any other medical tests? The
medical tests may include blood tests, arthroscopy,
magnetic resonance imaging, myelography
or ij bone scan.
Neuropathy secondary to the disorder. Has the
patient any evidence of peripheral neuropathy -
sensory, motor or autonomic - associated with a
medical disorder such as diabetes ( McLeodRoberts
1995, Armstrong 1999)? Abnormality
of skin and other structures will not
necessarily be perceived or reported by the
patient.
Neurological symptoms if a spinal lesion is suspected.
Has the patient experienced symptoms of
spinal cord compression (Le. compression of the
spinal cord to L1 level), which are bilateral tingling
in hands or feet and/or disturbance of gait?
Has the patient experienced symptoms of
cauda equina compression (i.e. compression
below L 1 ), which are saddle anaesthesia/paraesthesia
and bladder and/or bowel sphincter disturbance
(loss of control, retention, hesitancy,
urgency or a sense of incomplete evacuation)
(Grieve 1991)? These symptoms may be due to
interference of 53 and 54 (Grieve 1981). Prompt
surgical attention is required to prevent permanent
sphincter paralysis.
EXAMINATION OF THE FOOT AND ANKLE 341
History of the present condition
(HPC)
For each symptomatic area the clinician should
discover how long the symptom has been present,
whether there was a sudden or slow onset
and whether there was a known cause that provoked
the onset of the symptom. If the onset was
slow, the clinician should find out if there has
been any change in the patient's life-style, e.g. a
new job or hobby or a change in sporting activity,
that may have affected the stresses on the foot
and ankle and related areas. To confirm the relationship
between the symptoms, the clinician
asks what happened to other symptoms when
each symptom began.
Past medical history (PMH)
The following information should be obtained
from the patient and/ or the medical notes:
• The details of any relevant medical history.
• The history of any previous attacks: how
many episodes, when were they, what was the
cause, what was the duration of each episode
and did the patient fully recover between
episodes? I f there have been no previous
attacks, has the patient had any episodes of
stiffness in the lumbar spine, hip, knee, ankle,
foot or any other relevant region? Check for a
history of trauma or recurrent minor trauma.
• Ascertain the results of any past treatment for
the same or similar problem. Past treatment
records may be obtained for further
information.
Social and family history
Social and family history that is relevant to the
onset and progreSSion of the patient's problem
should be recorded. Examples of relevant information
might include the age of the patient,
employment, the home situation, any dependants
and details of any leisure activities. Factors
from this information may indicate direct and/ or
indirect mechanical influences on the foot and
ankle. In order to treat the patient appropriately,
it is important that the condition is managed
342 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
within the context of the patient's social and
work envirollJnent.
Plan of the physical examination
When all this information has been collected, the
subjective examination is complete. It is useful at
this stage to highlight with asterisks (*), for ease
of reference, important findings and particularly
one or more functional restrictions. These can
then be re-examined at subsequent treatment
sessions to evaluate treatnlent intervention.
In order to plan the physical examiJ�ation, the
following hypotheses need to be developed from
the subjective examination:
• The structures that must be examined as a
possible cause of the symptoms, e.g. lumbar
spine, hip joint, knee joint, foot and ankle, soft
tissues, muscles and neural tissues. Often it is
not possible to examine fully at the first
attendance and so examination of the
structures must be prioritized over
subsequent treatment sessions.
• Other factors that need to be examined, e.g.
working and everyday postures, leg length.
• An assessment of the patient's condition in
terms of severity, irritability and nature (SIN):
Severity o f the condition: if severe, no
overpressures are applied
- Irritability of the condition: if irritable,
fewer movements are carried out
Nature of the condition: the physical
examination may require caution in certain
conditions such as neurological
involvement, recent fracture, trauma,
steroid therapy or rheumatoid arthritis;
there may also be certain contraindications
to further examination and treatment, e.g.
symptoms of cauda equina compression.
A physical planning form can be useful for inexperienced
clinicians to help guide them through
the clinical reasoning process (Figs 2.11 & 2.12).
PHYSICAL EXAMINATION
Throughout the physical examination the clinician
must aim to find physical tests that reproduce
each o f the patient's symptoms. Each of
these positive tests is highlighted by an asterisk (*) and used to determine the value of treatment
intervention within and between treatment
sessions.
The order and detail of the physical tests
described below need to be appropriate to the
patient being examined. Some tests will be irrelevant,
others will only need to be carried out briefly
while others will need to be fully investigated.
Observation
Informal obselVation
The clinician should observe the patient in
dynamic and static situations; the quality of
movement is noted, as are the postural characteristics
and facial expression. Informal observation
will have begun from the moment the clinician
begins the subjective examination and will continue
to the end of the physical examination.
Formal obselVation
Observation of posture. The clinician examines
the patient's posture in standing, noting the posture
of the feet, lower limbs, pelvis and spine.
Observation of the foot and ankle should also be
carried out in a non-weight-bearing position.
General ImNer limb abnormalities include
uneven weight-bearing through the legs and
feet, internal femoral rotation and genu
varum/valgum or recurvatum (hyperextension).
The foot may demonstrate a number of abnormalities,
including forefoot varus/valgus and
hind foot varus/valgus. The toes may be
deformed - claw toes, hallux rigid us, hammer
toes, mallet toe, hallux valgus, Morton's foot, pes
cavus or pes planus. Further details of these
abnormalities can be found in a standard
orthopaedic textbook. The clinician passively
corrects any asymmetry to determine its relevance
to the patient's problem.
It should be noted that pure postural dysfunction
rarely influences one region of the body in
isolation and it may be necessary to carry out a
full postural examination.
Observation of muscle form. The clinician
observes the muscle bulk and muscle tone of the
patient, com paring left and right sides. It must be
remembered that the level and frequency of
physical activity as well as the dominant side
may well produce differences in muscle bulk
between sides. Some muscles are thought to
shorten under stress while other muscles weaken,
producing muscle imbalance (Table 3.2).
Observation of soft tissues. The clinician
observes the quality and colour of the patient's
skin, any area of swelling, exostosis, callosities,
joint effusion or presence of scarring, and takes
cues for further examination.
Observation of gait. Analyse gait (including
walking backwards) on even/uneven ground and
on toes, heels, and outer and inner borders of feet,
as well as slopes, stairs and running, etc. ote the
stride length and weight-bearing ability. Inspect
the feet, shoes and any walking aids. The patient's
gait should be observed taking into account variations
expected with age (Halliday et al 1998) and
medical disorder or surgical intervention.
Working in a logical manner from head to toe,
or vice versa, each body segment should be
observed. The clinician should look for asymmetry
in each segment, e.g. arm swing, uneven
stride length from left to right, as this may indicate
tight musculature or structural anomaly, or
even a habit such as carrying a bag on one shoulder.
Leg alignment during the swing and stance
phases of gait may provide useful indicators of
the aetiology of problems; for example, a marked
internal knee position increases the Q angle
(Livingstone & Mandigo 1998) and thus the lateral
pull of quadriceps. This could give rise to
retropatellar pain as the patella is pulled laterally
across the lateral femoral condyle. It is important
to note the timing of the occurrence of the asymmetry
as it may allow over-prolonged muscle
contraction, for example, to be identified and
related to the symptoms.
The angle of heel contact with the ground is usually
slightly varus. Marked variations from this
will cause abnom,al foot function, with compensation
attained either in the foot across the midtarsal
joint and 1st and 5th rays or more proximally in
the ankle, knee, (less often hip) and sacroiliac
EXAMINATION OF THE FOOT AND ANKLE 343
joints. Early heel lift may indicate tight posterior
leg muscles and causes a functional ankle equinus
(Tollafield and Merriman 1995), a destructive
functional condition of the lower limb.
Over-pronation or no pronation of the foot
during midstance should be observed. Pronation
is a normal part of gait that allows the foot to
become a shock absorber and mobile adapter. At
heel lift the foot changes to a more rigid lever for
toe off. Limitation in range of motion of the
metatarsophalangeal joints will affect gait also.
Abnormality of function at any phase of gait may
cause symptoms, varying from low-grade and
cumulative to acute, in any structures of the locomotor
system. Summary o( gait analysis:
• Observe alignment of head to toes during gait
• Look for asymmetry
• Look for abnormal alignment
• Look for timing of any malalignment during
gait.
Observation of the patient's attitudes and feelings.
The age, gender and ethnicity of patients
and their cultural, occupational and social backgrounds
will all affect their attitudes and feelings
towards themselves, their condition and the clinician.
The clinician needs to be aware of and sensitive
to these attitudes, and to empathize and
communicate appropriately so as to develop a
rapport with the patient and thereby enhance the
patient's compliance with the treatment.
Joint tests
Joint tests include integrity tests and active and
passive physiolOgical movements of the foot and
ankle and other relevant joints. Passive accessory
movements complete the joint tests and are described
towards the end of the physical examination.
Joint integrity tests
Anterior drawer sign. This test is similar to the
posteroanterior accessory movement to the ankle
joint described below. The patient Lies prone with
the knee flexed (to relax gastrocnemius). The
344 NEU ROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Figure 15.1 Anterior drawer sign. The left hand stabilizes
the lower leg while the right hand applies a posteroanterior
force to the talus.
clinician applies a posteroanterior force to the
talus with the ankle in dorsiflexion and then
plantarflexion (Fig. 1 5.1), in order to test the
integrity of the medial and lateral ligaments.
Excessive anterior movement of the talus indicates
insufficiency of the medial and lateral ligaments.
If the movement only occurs on one side,
this indicates insufficiency of the Ligament on
that side.
Talar tilt. The patient lies prone with the knee
flexed (to relax gastrocnemius) and the ankle in
neutral. The clinician moves the talus into abduction
and then adduction (Fig. 1 5.2). Excessive
adduction movement of the talus suggests that the
calcaneofibular ligament is injured (Magee 1 992).
Active and passive physiological joint movement
For both active and passive physiological jOint
movement, the clinician should note the following:
• The quality of movement
• The range of movement
• The behaviour of pain through the range of
movement
• The resistance through the range of movement
and at the end of the range of movement
• Any provocation of muscle spasm.
Figure 15.2 Talar tilt. The hands grip around the talus and
move it into adduction.
A movement diagram can be used to depict
this information.
Active physiological movements with overpressure.
The active movements with overpressure
listed below (Fig. 15.3) are tested with the patient
lying prone. Movements are carried out on the left
and right sides. The clinician establishes the patient's
symptoms at rest, prior to each movement,
and passively corrects any movement deviation to
determine its relevance to the patient's symptoms.
The following jOints should be tested as indicated:
• Talocrural joint
- Dorsiflexion
- Plantarflexion
• Subtalar joint
- Inversion
- Eversion
• Metatarsophalangeal joints
- Flexion
- Extension
• Interphalangeal joints
- Flexion
- Extension.
Modifications to the examination of active physiological
movements. For further information
about active range of movement, the following
can be carried out:
Ai
Aiv
c
• The movement can be repeated
• The speed of movement can be altered
• Movements Can be combined, such as
inversion in various degrees of plantarflexion,
e.g. metatarsophalangeal nexion and
abduction
EXAMINATION OF THE FOOT AND ANKLE 345
Aii Aiii
B
Figure 1 5.3 Overpressures to the foot and ankle.
A (i) Dorsiflexion. The right hand pulls the calcaneus
upwards while the lett hand applies overpressure to
dorsiflexion. (ii) Plantarflexion. The lett hand grips the
forefoot and the right hand grips the calcaneus and both
move the foot into plantarflexion. (iii) Inversion. The right
hand adducls the calcaneus and reinforces the plantarflexion
movement while the left hand planlarflexes the hindfoot and
adducts, supinates and plantarflexes the forefoot.
(iv) Eversion. The right hand abducts the calcaneus and
reinforces the dorsiflexion while the left hand dorsiflexes the
hindfoot and abducts, pronates and dorsiflexes the forefoot.
B Metatarsophalangeal joint flexion and extension. The right
hand stabilizes the metatarsal while the lett hand flexes and
extends the proximal phalanx. C Interphalangeal jOint flexion
and extension. The right hand stabilizes the proximal phalanx
while the lett hand flexes and extends the distal phalanx.
• Compression or distraction can be added
• Movements can be sustai ned
• The injuring movement, i.e. the movement
that occurred at the time of the injury, can be
tested
• Differentiation tests.
346 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Numerous differentiation tests (Maitland
1986) can be performed; the choice depends on
the patient's signs and symptoms. For example,
when lateral ankle pain is reproduced on inversion,
inversion consists of talocrural plantarflexion,
subtalar adduction and transverse tarsal
supination, and differentiation between these
joints may therefore be required. The clinician
takes the foot into inversion to reproduce the
patient's pain and then systematically adds or
releases talocrural plantarflexion, subtalar adduction
and transverse tarsal supination and
notes the effect this has on symptoms.
Capsular pattern. Capsular patterns for these
joints (Cyriax 1982) are as follows:
• Tibiofibular joints - pain when the joint is
stressed
• Ankle joint - more limitation of plantarflexion
than dorsiflexion
• Talocalcaneal joint - limitation of inversion
• Midtarsal joint - limitation of dorsiflexion,
plantarflexion, adduction and medial rotation
(abduction and lateral rotation are full range)
• Metatarsophalangeal joint of the big toemore
limitation of extension than flexion
• Metatarsophalangeal joint of the other four
toes - variable, tend to fix in extension with
interphalangeal joints flexed.
Passive physiological joint movement. All of the
active movements described above can be examined
passively with the patient in prone with the
knee at 90° flexion, or supine with the knee flexed
over a pillow, comparing left and right sides.
Comparison of the response of symptoms to
the active and passive movements can help to
determine whether the structure at fault is noncontractile
(articular) or contractile (extraarticular)
(Cyriax 1 982). If the lesion is non-contractile,
such as ljgament, then active and passive
movements will be painful and/or restricted in the
same direction. If the lesion is in a contractile tissue
(i.e. muscle) then active and passive movements
are painful and/or restricted in opposite
directions.
In addition, abduction and adduction of
the metatarsophalangeal joints can be tested
(Fig. 15.4).
Figure 15.4 Metatarsophalangeal joint abduction and
adduction. The right hand stabilizes the metatarsal while the
left hand moves the proximal phalanx into abduction and
adduction.
Other joints
Other joints may need to be examined to prove
or disprove their relevance to the patient's condition.
The joints most likely to be a source of
the symptoms are the lumbar spine, sacroiliac
joint, hip joint and knee joint. These joints can
be tested fully (see relevant chapter) or, if they
are not suspected to be a source of symptoms,
the relevant clearing tests can be used (Table
15.1).
Table 1 5.1 Clearing tests
Joint
Lumbar spine
Sacroiliac joint
Hip joint
Knee joint
Patellofemoral
joint
Physiological
movement
Flexion and quadrants
Anterior and
posterior gapping
Squat and hip quadrant
Extension,
extension/abduction,
extension/adduction
and squat
Medialllateral glide and
cephalad/caudad glide
Accessory
movement
All movements
Muscle tests
Muscle tests include examining muscle strength,
length, isometric contraction, muscle bulk and a
specific diagnostic test.
Muscle strength
The clinician tests the ankle dorsiflexors, plantarnexors,
foot inverters, everters and toe nexors,
extensors, abductors and adductors and any other
relevant muscle groups. For details of these general
tests the reader is directed to Daniels &
Worthingham (1986), Cole et al (1988) or Kendall
et al (1993).
Greater detail may be required to test the
strength of individual muscles, in particular those
muscles prone to become weak, i.e. gluteus rnaximus,
medius and minim us, vastus iateralis,
medialis and intermedius, tibialis anterior and
the peronei (Jull & Janda 1987). Testing the
strength of these muscles is described in Chapter
3.
Muscle length
The clinician checks the length of individual
muscles, in particular those muscles prone to
become short, i.e. the erector spinae, quadratus
lumborum, piriformis, iliopsoas, rectus femoris,
tensor fasciae latae, hamstrings, tibialis posterior,
gastrocnemius and soleus (Jull & Janda 1987).
Testing the length of these muscles is described
in Chapter 3.
Isometric muscle testing
The clinician tests the ankle dorsinexors and
plantarflexors and any other relevant muscle
group in resting position and, if indicated, in different
parts of the physiological range. In addition
the clinician observes the quality of the
muscle contraction to hold this position (this can
be done with the patien􀄠s eyes shut). The patient
may, for example, be wlable to prevent the joint
from moving or may hold with excessive muscle
activity; either of these circumstances would suggest
a neuromuscular dysfunction.
EXAMINATION OF THE FOOT AND ANKLE 347
Muscle bulk
Measure the circumference of the muscle bulk of
the calf 15 cm below the apex of the patella using
a tape measure and compare left and right sides.
Diagnostic tests
Thompson's test for rupture of tendocalcaneus (Corrigan & Maitland 1994). With the patient prone
and the feet over the end of the plinth or kneeling
with the foot unsupported, the clinician squeezes
the calf muscle; the absence of ankle plantarflexion
indicates a positive test, suggesting rupture
of tendocalcaneus.
Neurological tests
Neurological examjnation involves examining the
integrity of the nervous system, the mobility of the
nervous system and specific diagnostic tests.
Integrity of the nervous system
The integrity of the nervous system is tested if the
clinician suspects that the symptoms are emanating
from the spine or from a peripheral nerve.
Dermatomes/peripheral nerves. Light touch and
pain sensation of the lower limb are tested using
cotton wool and pinprick respectively, as
described in Chapter 3. A knowledge of the cutaneous
distribution of nerve roots (derma tomes)
and peripheral nerves enables the clinician to
distinguish the sensory loss due to a root lesion
from that due to a peripheral nerve lesion. The
cutaneous nerve distribution and dermatome
areas are shown in Figure 3.21 .
Myotomesiperipheral nerves. The following myotomes
are tested and are shown in Figure 3.27:
• L2 - hip flexion
• L3 - knee extension
• L4 - foot dorsiflexion and inversion
• L5 - extension of the big toe
• Sl - eversion of the foot, contract buttock,
knee flexion
• S2 - knee flexion, toe standing
• S3-4 - muscles of pelvic floor, bladder and
genital function.
348 NEUROMUSCUlOSKElETAl EXAMINATION AND ASSESSMENT
A working knowledge of the muscular distribution
of nerve roots (myotomes) and peripheral
nerves enables the clinician to distinguish the
motor loss due to a root lesion from that due to a
peripheral nerve lesion. The peripheral nerve
distributions are shown in Figure 3.25.
Rellex testing. The following deep tendon
reflexes are tested and are shown in Figure 3.28:
• L3/4 - knee jerk
• S1 - ankle jerk.
Mobility of the nervous system
The following neurodynarnic tests may be carried
out in order to ascertain the degree to which
neural tissue is responsible for the production of
the patient's symptom(s):
• Passive neck flexion (PNF)
• Straight leg raise (SLR)
• Passive knee bend (PKB)
• Slump.
These tests are described in detail in Chapter 3.
Special tests
Vascular tests
If the circulation is suspected of being compromised,
the clinician palpates the pulses of the
dorsalis pedis artery. The state of the vascular
system can also be determined by the response of
symptoms to positions of dependency and elevation
of the lower limbs.
Homans' sign lor deep vein thrombosis. The
clinician passively dorsiflexes the ankle joint. If
the patient feels pain in the calf, this may indicate
deep vein thrombosis.
Leg length
Leg length is measured if a difference in left and
right sides is suspected (see Ch. 14 for details).
Leg-heel alignment
The patient Hes prone with the foot over the end of
the pHnth and the clinician holds the foot with the
subtalar joint in neutral. The clinician observes the
poSition of the foot on the leg by using an imaginary
line that bisects the calcaneus and the lower
third of the leg (ignore the aHgnment of the tendo­
calcaneus). Normally, the calcaneus will be in
slight varus (2-4°) (Roy & Irvin 1983). Excessive
varus or presence of valgus alignment indicates
hindfoot/rearfoot varus and valgus respectively;
the latter is more likely to be observed following
injury or disease process.
Forefoot-heel alignment
Test for forefoot varus and valgus with the patient
in prone and the foot over the end of the plinth.
The clinician holds the subtalar joint in neutral and
the mjdtarsa! joint in maximum eversion and
observes U1e relationship between the vertical axis
of the heel and the plane of the 1st to 5th metatarsal
heads, whicll should be perpendicular in
normal cases. The medial side of the foot will be
raised if there is forefoot varus and the lateral side
will be raised if there is forefoot valgus (Roy &
Irvin 1983).
Tibial torsion
This test compares the alignment of the transverse
axis of the knee with the ankle axis in the
frontal plane. With the patient sitting, the clinician
compares the ankle joint line (an imaginary
line between the apex of the medial and lateral
malleoli) and the knee joint line (Fig. 1 5.5)
(Fromherz 1995). The tibia normally lies in
15-20° of lateral rotation (Wadsworth 1988).
Pes planus and over-pronation
Very high arched feet - pes cavus - may have a
neurological or idiopathic aetiology and are
invariably relatively rigid and call1lot accommodate
to uneven terrain, requiring other segments
of the locomotor system to compensate.
Feet that have an in-rolled appearance are
termed over- or excessively pronated. On weightbearing
the vertical bisection of calcaneus is
usually in a valgus alignment and medial bulging
of the navicular is evident. Those feet that appear
Figure 15.5 Tibial torsion. The line of the ankle joint is
compared to a visual estimation of the knee joint axis. (From
Fromherz 1995, with permission.)
flattened with no longitudinal arch, but without
inrolling, are called pes planus. This latter condition
is not very COl11mon.
Balance test
Balance is provided by vestibular, visual and
proprioceptive information. This rather crude
and non-specific test is conducted by asking the
patient to stand on one leg with the eyes open
and then closed. If the patient's balance is as poor
with the eyes open as with the eyes closed, this
suggests a vestibular or proprioceptive dysfunction
(rather than a visual dysfunction). The test is
carried out on the affected and unaffected side; if
there is greater difficulty maintaining balance on
the affected side, this may indicate some proprioceptive
dysfunction.
EXAMINATION OF THE FOOT AND ANKLE 349
Measurement of oedema
If there is oedema present, measure the circumference
of the calf and/or foot with a tape measure
and compare left and right sides.
Functional ability
Some functional ability has already been tested by
the general observation of the patient during the
subjective and physical examination, e.g. the postures
adopted during the subjective examination
and the ease or difficulty of wldressing and changing
position prior to the examination. Any further
functional testing can be carried out at this point in
the examination and may involve further gait
analysis over and above that carried out in the
observation section earlier. Clues for appropriate
tests can be obtained from the subjective examination
findings, particularly aggravating factors.
Palpation
The clinician palpates the foot and ankle and
any other relevant areas. It is useful to record
palpation findings on a body chart (see Fig. 2.4)
and/or palpation chart (Fig. 3.37).
The clinician should note the following:
• The temperature of the area
• Localized increased skin moisture
• The presence of oedema or effusion
• Mobility and feel of superficial tissues, e.g.
ganglions, nodules, scar tissue
• The presence or elicitation of any muscle
spasm
• Tenderness of bone, ligament, muscle, tendon,
tendon sheath, trigger points (shown in Fig.
3.38) or nerve. Palpable nerves in the lower
limb are as follows:
- The sciatic nerve can be palpated twothirds
of the way along an imaginary line
between the greater trochanter and the
ischial tuberOSity with the patient in
prone
- The common peroneal nerve can be
palpated medial to the tendon of biceps
femoris and also around the head of the
fibula
Ai
350 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Bi Bii
Figure 15.6 Accessory movements for the foot and ankle joints.
8iii
A Inferior tibiofibular joint. (1) Anteroposterior. The heel of the right hand applies a posteroanterior force to the tibia while the left
hand applies an anteroposterior force to the fibula. (ii) Posteroanterior. The left hand applies an anteroposterior force to the tibia
while the right hand applies a posteroanterior force to the fibula.
e Talocrural joint. (i) Anteroposterior. The right hand stabilizes the calf while the left hand applies an anteroposterior force to the
anterior aspect of the lalus. (ii) Posteroanterior. The left hand stabilizes the call white the right hand applies a posteroanterior
force to the posterior aspect of the talus. (iii) Medial rotation. The left hand grasps the malleoli anteriorly to stabilize the tibia
while the right hand holds the talus posteriorly and rotates the talus medially. (iv) Lateral rotation. The right hand grasps the
malleoli posteriorly to stabilize the tibia while the left hand holds the talus anteriorly and rotates the talus laterally.
(v) Longitudinal caudad. The clinician lightly rests the leg on the posterior aspect of the patient's thigh to stabilize and then
grasps around the talus to pull upwards. (vi) Longitudinal cephalad. The left hand supports the foot in dorsiflexion while the right
hand applies a longitudinal cephalad force through the calcaneus.
C Subtalar joint, longitudinal caudad. The clinician lightly rests his/her leg on the posterior aspect of the patient's thigh to
stabilize it and then grasps around the calcaneus with the right hand and the forefoot with the left hand. and pulls the foot
upwards.
o Intertarsal joints. (i) Anteroposterior to the navicular. Thumb pressure is applied to the anterior aspect of the navicular.
(ii) Posteroanterior to the cuboid. Thumb pressure is applied to the posterior aspect of the cuboid. (iii) Abduction. The calf is
rested on the clinician's thigh. The right hand grasps the heel while the left hand grasps the forefool. Both hands apply an
abduction force to Ihe foot.
Aii
Biv Bv
c
Dii
Figure 15.6 (conl'd)
EXAMINATION OF THE FOOT AND ANKLE 351
Bvl
Oi
Oiii
352 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Div
Eii
Fii
Ei
Fi
Fiii
Figure 15.60 (cont'dJ (iv) Adduction. The calf is rested on the clinician's thigh. The right hand grasps the heet while the left
hand grasps the forefoot. Both hands apply an adduction force to the foot.
E Tarsometatarsal joints. (i) Anteroposterior and posteroanterior movement of the first tarsometatarsal jOint. The right hand
stabilizes the medial cuneiform while the left hand applies an anteroposterior and posteroanterior force to the base of the
metatarsal. (ii) Medial and laleral rota lion al lhe 2nd tarsometatarsal joint. The right hand stabilizes the intermediate cuneiform
while the left hand rotates the 2nd metatarsal medially and laterally.
F Proximal and distal intermetatarsal joints. (i) Anteroposterior and posteroanterior movement. The hands grasp adjacent
metatarsal heads and apply a force in opposite directions to produce an anteroposterior and a posteroanterior movement at the
distal intermetatarsal joint. (ii) Horizontal flexion. The right thumb is placed in the centre of the foot at the level of the metatarsal
heads. The left hand grips around the dorsum of the metatarsal heads and curves them around the thumb to produce horizontal
flexion. (iii) Horizontal extension. Both thumbs are placed over the middle of the dorsum of the foot at the level of the metatarsal
heads and the fingers grasp anteriorly around the foot. The fingers and thumbs then apply a force to produce horizontal
extension.
G First metatarsophalangeal joint. For all these movements, one hand stabilizes the metatarsal head while the other hand
moves the proximal phalanx. (i) Anteroposterior and posteroanterior movement. The proximal phalanx is moved anteriorly and
posteriorly. (ii) Medial and lateral transverse movement. The proximal phalanx is moved medially and laterally. (iii) Medial and
lateral rotation. The proximal phalanx is moved into medial and lateral rotation. (iv) Abduction and adduction. The proximal
phalanx is moved into abduction and adduction. (v) Longitudinal caudad and cephalad. The proximal phalanx is moved in a
cephalad and caudad direction.
Gi
Giii
Gv
- The tibial nerve can be palpated centrally
over the posterior knee crease medial to the
popliteal artery; it can also be felt behind
the medial malleolus, which is more
noticeable with the foot in dorsinexion and
eversion
- The superficial peroneal nerve can be
palpated on the dorsum of the foot along
an irnaginary line over the fourth
EXAMINATION OF THE FOOT AND ANKLE 353
Gii
Giv
Figure 15.6 (cont'd)
metatarsal; it is more noticeable with the
foot in plantar flexion and inversion
- The deep peroneal nerve can be palpated
between the first and second metatarsals,
lateral to the extensor hallucis tendon
The sural nerve can be palpated on the
lateral aspect of the foot behind the
lateral malleolus, lateral to the
tendocalcaneus
354 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
• Increased or decreased prominence of
bones
• Pain provoked or reduced on palpation.
Accessory movements
It is useful to use the palpation chart and movement
diagrams (or joint pictures) to record
findings. These are explained in detail in Chapter
3.
The clinician should note the following:
• The quality of movement
• The range of movement
• The resistance through the range and at the
end of the range of movement
• The behaviour of pain through the range
• Any provocation of muscle spasm.
Accessory movements for the foot and ankle
joints
Accessory movements for the foot
jOints (Fig. 15.6) are as foLlows
1991):
• Inferior tibiofiblliar joint
! anteroposterior
t posteroanterior
! AP /PA glide.
• Taloenlml joint
!
j
caud
ceph
anteroposterior
posteroanterior
medial rotation
lateral rotation
longitudinal caudad
longitudinal cephalad.
• SlIbtalar joil1t
- caud longitudinal caudad.
• Illtertarsal joil1ts
!
j
!
Abd
Add
anteroposterior
posteroanterior
AP/PA glide
abduction
adduction.
and ankle
( Maitland
• Tarsometatarsal jO;,lfS
!
j
! ;J
c
anteroposterior
posteroanterior
AP/PA glide
medial rotation
lateral rotation.
• Proximal and distal ;'ltermefatarsai jail/IS
!
j
!
HF
anteroposterior
posteroanterior
AP/PA glide
horizontal flexion
HE horizontal extension.
• Metatarsophalallgeal al1d interphalallgeal
joil1ts
anteroposterior
posteroanterior
AP/PA glide
med medial transverse
lat lateral transverse ;J medial rotation C lateral rotation
Abd abduction
Add adduction
caud longitudinal caudad
eeph longitudinal cephalad.
For further information when examining the
accessory movements, alter the:
• Speed of force application
• Direction of the applied force
• Point of application of the applied force
• Position of the joint, e.g. the talocrural joint
can be placed in dorsiflexion or plantarflexion.
Movement tests. Kaltenborn (1989) suggests the
following 10 accessory movement tests for the
tarsal bones:
• Movements in the middle of the foot
- Fix 2nd and 3rd cuneiform bones and
mobilize 2nd metatarsal bone
- Fix 2nd and 3rd cuneiform bones and
mobilize 3rd metatarsal bone
• Movements on the medial side of the foot
- Fix 1st cuneiform bone and mobilize 1 st
metatarsal bone
- Fix the navicular bone and mobilize the 1st,
2nd and 3rd cuneiform bones
- Fix the talus and mobilize the navicular
bone
• Movements on the lateral side of the foot
- Fix the cuboid bone and mobilize the 4th
and 5th metatarsal bones
- Fix the navicular and 3rd cuneiform bones
and mobilize the cuboid bone
- Fix the calcaneus and mobilize the cuboid
bone
• Movement between talus and calcaneus
- Fix the talus and mobilize the calcaneus
• Movements in the ankle joint
- Fix the leg and move the talus or fix the
talus and move the leg.
Following accessory rnovements, the clinician
reassesses all the asterisks, (movements or tests
that have been found to reproduce the patient's
symptoms) in order to establish the effect o f
accessory movements on the patient's signs and
symptoms. This helps to prove/disprove structure(
s) at fault.
Other joints as applicable
Accessory movements can then be tested for
EXAMINATION OF THE FOOT AND ANKLE 355
Figure 15.7 Mobilizations with movement for the inferior
tibiofibular joint. The left hand supports the ankle while the
heel of the right hand applies an anteroposterior glide to the
fibula as the patient inverts the foot.
other joints suspected to be a source o f sym- A
ptoms, and by reassessing the asterisks the
clinician is then able to prove/disprove the structure(
s) at fault. Joints likely to be examined are
the lumbar spine, sacroiliac joint, hip jOint, knee
joint and pateUofemoral joint.
Mobilizations with movement (MWMs) (Mulligan
1995)
Inferior tibiofibular joint. The patient lies supine
and is asked to actively invert the foot while the
clinician applies an anteroposterior glide to the
fibula (Fig. 15.7). An increase in range and no
pain or reduced pain are positive examination
findings indicating a mechanical joint problem.
Plantarflexion of the ankle joint. The patient lies
supine with the knee flexed and the foot over the
end of the plinth. The clinician with one hand
applies an anteroposterior glide to the lower end
of the tibia and fibula and with the other hand roUs
B
Figure 1 5.8 Mobilizations with movement for the ankle
joint. A Plantarflexion. The left hand applies an
anteroposterior glide to the tibia and fibula while the other
hand rolls the talus anteriorly as the patient actively
plantarflexes. B Dorsiflexion. The right hand holds the
posterior aspect of the calcaneus and the left hand grips the
anterior aspect of the talus. Both hands apply an
anteroposterior glide as the patient actively dorsiflexes.
356 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
the talus anteriorly while the patient is asked to
actively plantarflex the ankle (Fig. 15.8A). An
increase in range and no pain or reduced pain
are positive examination findings indicating a
mechanical joint problem.
Dorsiflexion of the ankle joint. The patient lies
supine with the foot over the end of the plinth. The
clinician applies an anteroposterior glide to the calcaneus
and the talus while the patient is asked to
actively dorsiflex the ankle (Fig. 15.8B). Since the
extensor tendons lift the examiner's hand away
from the talus, the patient is asked to contract
repetitively and then relax. With relaxation, the
clinician moves the ankJe into the further range of
dorsiflexion gained during the contraction.
Inversion of foot and ankle. This test is carried
out on patients with pain over the medial border
o f the foot on inversion due to a 'pOSitional' fault
of the first metatarsophalangeal joint. The patient
actively inverts the foot while the clinician
applies a sustained anteroposterior glide to the
base of the 1st metatarsal and a posteroanterior
glide on the base of the 2nd metatarsal (Fig. 15.9).
An increase in range and no pain or reduced pain
are positive examination findings indicating a
mechanical joint problem.
Metatarsophalangeal jOints. This test is carried
out if the patient has pain under the transverse
arch of the foot due to a positional fault of a
metatarsal head. The patient actively flexes the
toes while the clinician grasps the heads of adja-
Figure 15.9 Mobilizations with movement for inversion of
the foot and ankle. The left hand applies an anteroposterior
glide to the base of the 1 sl metatarsal and the right hand
applies a posteroanterior glide to the base of the 2nd
metatarsal while the patient actively inverts.
Figure 1 5 . 1 0 Metatarsophalangeal joints. The patient
actively flexes the toes while the clinician uses thumb
pressure to apply a posteroanterior glide to the head of a
metatarsal.
cent metatarsals and applies a sustained posteroanterior
glide to the head o f the affected
metatarsal (Fig 15.10). An increase in range and
no pain or reduced pain are positive examination
findings indicating a mechanical joint problem.
COMPLETION OF THE EXAMINATION
Having carried out the above tests, the examination
of the foot and ankle is complete. The subjective
and physical examinations produce a large
amount of information, which needs to be
recorded accurately and quickly. An outline
examination chart may be useful for some clinicians
and one is suggested in Figure 15.1 1 . It is
important, however, that the clinician does not
examine in a rigid manner, simply following the
suggested sequence outlined in the chart. Each
patient presents differently and this should be
reflected in the examination process. It is vital
at this stage to highlight with an asterisk (*)
important findings from the examination. These
findings must be reassessed at, and within, subsequent
treatment sessions to evaluate the effects
of treatment on the patient's condition.
On completion of the physical examination the
clinician should:
• Warn the patient of pOSSible exacerbation up
to 24-48 hours following the examination.
• Request the patient to report details on the
behaviour of the symptoms following
examination at the next attendance.
Subjective examination
Body chart
. .
c
􀀇 ..-, .,
.
v .
􀀁 􀀂
'"
Relationship of symptoms
Aggravating factors
Severe Irntable
Easing factors
I
No pain
Figure 15.11 Fool and ankle examination chart.
EXAMINATION OF THE FOOT AND ANKLE 357
Name
Age
Date
24 hour behaviour
Function
Improving Static Worsening
Special questions
General health
Weight loss
RA
Drugs
Steroids
Anticoagulants
X-my
Cord/cauda equma symptoms
HPC
PMH
SH & FH
I
Pam as bad as It
Intensity of pam could possibly be
358 NEUROMUSCULOSKELETAL EXAMINATION AND ASSESSMENT
Physical 8Kamination Diagnostic tests
(Thompson's lest)
Observation
Joint resrs Neurological tests
JOint Integrity tests Integrity of the nervous system
(antenor drawer Sign. talar tilt)
Active and passive JOint movement
Talocrural and sub!alar Jomts Mobihtyof the nervous system
DorSlflexionJplantarflexion
InverSion/everSion
Midtarsal Jomts Special tests
Abduction/adduction (pulses, Homans' Sign, leg length. leg-heel
and forefoot-heel alignment, tibial lorsion, pes planus.
overpronatlon, balance test, oedema)
MTP Jomts
Flexion/extension
Abduction/adduction
Function
PIP & DIP Joints
Flexion/extension
Paipallon
Capsular pattern Ves No
Accessory movements
(Kaltenborn 1 0 pOint test)
Other IOlnts
Muscle tests
Muscle slrength
Muscle length
Other JOints
Isometric muscle tests
Muscle bulk MWMs
Figure 15.11 (cont'd)
• Explain the findings of the physical
examination and how these findings relate to
the subjective assessment. An attempt should
be made to clear up any misconceptions
patients may have regarding their illness or
injury.
• Evaluate the findings, formulate a clinical
REFERENCES
Armstrong D 1999 Loss of protective sensation: a practical
evidence based definition. Journal of Foot and Ankle
Surgery 38(10): 79-80
Cole J H , Furness A L, Twomey L T 1988 Muscles in action,
an approach to manual muscle testing. Churchill
Livingstone, Edinburgh
Corrigan a, Maitland G 0 1994 Musculoskeletal and sports
injuries. Butterworth·Heincmann, Oxford
Cyriax J 1982 Textbook of orthopaedic medicine - diagnosis
of soft tissue lesions, 8th oon. S.,illi􀂾re Tindall. London
Daniels L, Worthingham C 1986 Muscle testing. techniques
of manual examination, 5th cdn. W B Saunders,
Philadelphia, PA
Fromherz W A 1995 Examination. In: Hunt C C, McPoil T G
(cds) Physical therapy of the foot and ankle. Clinics in
Physical Therapy, 2nd cdn. Churchill Livingstone, New
York, ch 4, p B !
Grieve G P 1981 Common vertebral joint problems. Churchill
Livingstone, Edinburgh
Grieve G P 1991 MobiliS
liVingstone, Edinburgh
Halliday 5, Winter D, Frankl. Palla A, Prince P 1998
Initiation of gait in the young, elderly and in Parkinson's
disease subjects. Gait and Posture 8(1): 8-14
Jull G A, Janda V \987 Muscles and motor control in low
back pain: assessment and management. In: Twomey L T,
Taylor J R (cds) Physical therapy of the low back. Churchill
Livingstone, ew York, ch 10, p 253
Kaltenbom F M 1989 Manual mobilization of the extremity
joints: basic examination and treatment, 4th eeln. Olaf
orlis Bokhandel, Oslo
EXAMINATION OF THE FOOT ANO ANKLE 359
diagnosis and write up a problem list.
Clinicians may find the management planning
forms shown in Figures 3.51 and 3.52 helpful
in guiding them through what is often a
complex clinical reasoning process.
• Determine the objectives of treatment.
• Devise an initial treatment plan .
Kendall F P, McCreary E K, Provance P C 1993 Muscles
testing and function, 4th eeln. Williams & Wilkins,
Baltimore, MD
Livingstone L, Mandigo 1 1998 Bilateral Q angle asymmetry
and anterior knee pain syndrome. Clinical Biomechanics
14(1), 7-1 3
McLood·Robert s J 1995 Neurological assessment. In:
Merriman L, Tollafield D (eels) Assessment of the lower
limb. Churchill Livingstone, Edinburgh
Magee D J 1992 Orthopedic physical assessment, 2nd cdn.
W B 5.1unders, Philadelphia, PA
Maitland G O 1986 Vertebral manipulation, 5th cdn.
Butterworths, London
Maitland G D 1991 Peripheral manipulation, 3rd eeln.
Butterworths, London
Mulligan B R 1995 Manual therapy 'nags', 'snags',
'MWMs' etc., 3rd cdn. Plant View Services, New
Zealand
orkin C C, Levangie P K 1992Joint structure and function,
a comprehensive analysis, 2nd cdn. F A Davis,
Philadelphia, PA
Roy 5, Irvin R 1983 Sports medicine: prevention, evaluation,
management and rehabilitation. Prentice-Hall, Englewood
Cliffs, I
Tollaficld D, Merriman L 1995 Assessment of the locomotor
system. In: Merriman L, Tollafield D (cds) Assessment
of the lower limb. Churchill Livingstone,
Edinburgh
Wadsworth C T 1988 Manual examination and treatment of
the spine and extremities. Williams & Wilkins, B.lltimore,
MD
Epilogue
Having worked through 15 chapters of this text
the reader is now equipped with a repertoire of
examination and assessment skills and should be
aware of the implications of their findings. A
thorough understanding of these processes will
enhance the clinician's ability to clinically reason
and to decide what needs to be achieved, why it
needs to be achieved and how it may be
achieved. Having examined a patient thoroughly
the clinician must now manage the problem by
giving advice, educating the patient and/or
treating the patient with either active or passive
treatment or a combination of both, and giving
the patient the opportunity to participate in the
management of his/her own problem.
It is wise to remember that it is of prime importance
that patients as individuals feel they are in
control of their own problem. Throughout the
text we have concentrated on physical problems
but these problems must also be seen within the
concept of the holistic model of health. The spiritual,
mental, social and economic as well as the
physical environment impact on individuals'
perception of their dysfunction, their reaction to
dysfunction and their compliance with treatment.
It is vital that these factors are not ignored
or else as manual therapists we become totally
married to the medical and biological models of
health and in doing so ignore the other dimensions
that so obviously contribute to both health
and ill health.
Having examined and assessed the patien􀁫s
problem in some detail, the next obvious question
for the reader to ask is: How are these
361
382 NEUROMUSCULOSKELETAL EXAMINATION ANO ASSESSMENT
findings used? For this information the reader is
referred to standard texts and journal articles
such as Butler 1991, Cyriax 1982, Edwards 1999,
Elvey 1985, Grieve 1991, Janda 1994, Jull & Janda
1987, Jull & Richardson 1994, Kaltenborn 1989,
1993, Lee 1989, McConnell 1996, McKenzie 1981,
1990, Maitland 1986, 1991, Mulligan 1995,
Sahrmann 2001, Travell & Simons 1983 and
White & Sahrmann 1994 for details of treatment
philosophies and techniques. The reader is
advised that, just as there is more than one way
to tie a shoelace, so there are many ways to treat
individual dysfunctional problems with success.
Having decided what is wrong and decided
what structures are involved, and in what way
they are involved, the clinician can begin to think
logically about what treatment would be appropriate,
bearing in mind the probable effects of a
particular treatment strategy.
The clinician is urged to be wary of jumping
on the bandwagon of energetic supporters of
apparent wonder cures, which are easy to learn,
easy to apply and appear on face value to get
good results. Clinicians who try to fit every
patient into the same care package are sometimes
successful but this practice can often result in
failure. For these patients this can mean a grad-
REFERENCES
Butler D 51991 Mobilisation of the nervous system.
Churchill Livingstone, Melbourne
Cyriax J 1982 Textbook or orthopedic medicine - diagnosis of
soft tissue lesions, 8th edn. Bailliere Tindall, London
Edwards B C 1999 Manual of combined movements: their
use in the examination and treatment of mechanical
vertebral column disorders, 2nd OOn. ButterworthHeinemann,
Oxford
Elvey R L 1985 Brachial plexus tension test and the
pathoanatomical origin of arm pain. In: Glasgow E F,
Twomey L T, Scull E R, Kleynhans A M, Idczak R M (oos)
Aspects of manipulative therapy, 2nd edn. Churchill
Livingstone, Melbourne,ch 17, p 116
Grieve G P 1991 Mobilisation of the spine. 5th OOn. Churchill
Livingstone, Edinburgh
Janda V 1994 Muscles and motor control in cervicogenic
disorders: assessment and management. In: Grant R (ed)
Physical therapy of the cervical and thoracic spine, 2nd
edn. Churchill Livingstone, Edinburgh ch 10, p 195
Jull G A, Janda V 1987 Muscles and motor control in low
back p.:'1in: assessment and management. In: Twomey L T,
Taylor J R (eds) Physical therapy of the low back. Churchill
Livingstone, Edinburgh, ch 10, p 253
ual slide into chronicity with all the resultant
physiological, psychological, social and economic
problems that this entails. The best manual
therapists are those who utilize a wide range of
examination techniques and a large repertoire of
treatment techniques based on various manual
therapy philosophies and concepts.
If all clinicians examine logically, thoroughly
and with intelligence and manage patients' dysfunctional
problems with equal logiC, thoroughness
and intelligence, they will reap their own
reward of satisfaction in their role. To concentrate
on examination and then pay lip service to
the management and treatment of a problem is
folly and is a situation from which neither the
patient nor the therapist will benefit.
The reader should feel privileged, as an undergraduate
or postgraduate student of physiotherapy
or manual therapy, or as a clinician working
in the field of neuromusculoskeletal dysfunction,
to be part of such a vibrant and ever-developing
diSCipline. However, in the light of the rapid
research developments now taking place, readers
must be committed to 'watch all the spaces'
for new research evidence on which to base or
adapt their future practice less they miss some
vital component in the enlarging puzzle.
Jull G A, Richardson C A 1994 Rehabilitation of active
stabilization of the lumbar spine. In: Twomey L T,
Taylor J R (eds) Physical therapy of the low back, 2nd eeln.
Churchill liVingstone, Edinburgh, eh 9, p 251
Kaltenborn F M 1989 Manual mobilization of the extremity
joints examination, 4th edn. Olaf Norlis Bokhandel,
Oslo
Kaltenborn F M 1993 The spine: basic evaluation and
mobilization techniques, 2nd edn. Olaf Norlis Bokhandel,
Oslo
Lee 01989 The pelvic girdle. Churchill Livingstone,
Edinburgh
McConnell J 1996 Management of patellofemoral problems.
Manual Therapy 1(2): 60-66
McKenzie R A 1981 The lumbar spine: mechanical diagnosiS
and therapy. Spinal Publications, New Zealand
McKenzie R A 1990 The cervical and thoradc spine:
mechanical diagnosis and therapy. Spinal Publications,
New Zealand
Maitland G 0 1986 Vertebral manipulation, 5th edn.
Bulterworths, London
Maitland G 0 1991 Peripheral manipulation, 3rd edn.
Butlenvorths, London
Mulligan B R 1995 Manual therapy 'nags', 'snags',
'MWMs' etc., 3rd cdn. Plant View Services, New
Zealand
5.:1hrmann 5 2001 Diagnosis and treatment or movement
impairment syndromes. Churchill Livingstone,
Edinburgh
EPILOGUE 383
Travell J G, Simons 0 G 1983 Myofusdal pain and dysfunction:
the trigger point manual. Williams & Wilkins, Baltimore, MO
WhiteS G, Sahrmann 5 A 1994 A movement system balance
npproach to musculoskeletal pain. In: Grant R (ed)
Physical therapy of the cervical and thoracic spine,
2nd edn. Churchill Livingstone, Edinburgh eh 16, p 339
Index
PlItiW /lumbers ill bold jndicate figures mId
tables.
A
Abdominal muscle control, 181, 268
Abduction stress tests, knee. 319, 319
Abductor hallucis, trigger points, 9S
Abnormal sensation, 65-6
ankle, 341
case scenario, 23, 25, 31
elbow, 214
foot, 341
hand,232
hip region, 300
mapping areas of, 14
pelvic region, 280, 282
peripheral nerve tests, 244
shoulder region, 190
spine, 20-1,131,141,152,161,172,
261
temporomandibular joint, 114, 122
wrist, 232
Accessory movements, 36, 96-7
analytical assessment process, 102,
104
Olnkle, 3􀂦3, 354-6, 355-6
cervicotiloracic spine,'1 63--6, definition, xiv, 96
elbow region, 225-7, 225--7
examination modifications, 101-3,
105
foot, 350-3, 354-6, 355-j;
hand,246--51
hip joint, 307-9, 308
knee region, 329-33
lumbar spine, 271-3, 271-3
movement diagrams, 97-101. 97-102
pelvis, 288-92
shoulder region, 204-7, 205--7
temporomandibular jOint, 123-4,124
thoracic spine, 182-4, 183-5
upper cervical spine, 143--6,143-6
wrist, 246-51
Acromioclavicular (AC) joint, 189
accessory movements, 206, 206
area of symptoms, 190
capsular patterns, 52, 139
clearing tests, 55, 200
differentiation tests, 198
Acromion-humerus alignment, 194
Active physiological joint movements,
45-53
ankle,344-6
cervicothoracic spine, 156-9
elbow region, 218-21
foot,344-6
hand, 237-4 I
hip, 302-4
knee region, 322-3
lumbar spine, 264-7
s.1croiliac joint, 285
shoulder region, 195-8,196-7
temporomandibular joint, 119-20,
120
thoracic spine, 177-9,178-9
upper cervical spine, 137-9
wrist, 237-41
Adduction stress tests, knee, 319-20,
319
Adductor longus and brevis, 95
Adolescents, foot problems, 338
Adson's manoeuvre, 203, 204
Aggravating factors, 15, 16
case scenarios, 25, 28-9, 31
cervical spine, 25, 31, 131
cervicothoracic spine, 153
elbow symptoms, 214-15
hand symptoms, 232-3
hip symptoms, 298
knee symptoms, 314-15
lumbar spine, 259--60, 259
pelvic symptoms, 280-1
shoulder symptoms, 190-1
temporomandibular jOint, 115
thoracic spine, 173
wrist symptoms, 232-3
Agonist-antagonist imbalance, 55-6
Alar ligament stress tests, 136-7,137
Ailen test
thoracic outlet syndrome, 203, 203
wrist and hand problems, 245
Allodynia,14
Anaesthesia, 14,21,261,282
Analgesia, 14
Analgesics, 20
headache grading, 132
Analytical aS5('SSment process, 102,
104
Angina, pain distribution, 31
Ankle
completion of examination, 356-9
definition, 337
physical examination, 52, 55, 81, 325,
342-56,358
poSSible causes of problems, 337
subjective examination, 16, 339-42,
357
Ankle jerk, 81, 325. 348
Ankylosing spondylitis, 281
Antagonist-agonist imbalance, 55-6
Antalgic gait, 44
Anterior draw sign, 343-4, 344
Anterior draw tests, knee, 320, 320
Anterior gapping test, 272, 288-9,
289
Anterior interosseous syndrome, 223-4
Anterior rotation, sacroiliac joint, 286,
287
Anterior shoulder drawer test, 194, 194
Anterolateral stability, knee, 320-1, 321
Anteromedial stability, knee, 320
Anteroposterior tilt, patella, 329
Anteroposterior translation,
innominate/sacrum, 290
Anticoagulant therapy, 20
Anti-inflammatory drugs, 20
INDEX 367
Apley compression/distraction lest,
326-7,327
Approximation (posterior gapping)
test, 272-3, 289, 289
Arcuate-popliteus complex, 320, 321
Area of current symptoms, 9-10
ankle, 339
cervicothoracic spine, 152
elbow region, 214
foot, 339
hand,232
hip region, 298
knee region, 314
lumbar spine, 258
pelvis, 280
shoulder region, 190
temporomandibular joint, 114
thoracic spine, 172
upper cervical spine, 130
wrist, 232
Areas relevant to examination, 10-13
of ankle, 339
of cervicothoracic spine, 152
of elbow region, 214
of foot, 339
of hand, 232
of hip region, 298
of knee region, 314
of lumbar spine, 258
of pelvis, 280
of shoulder region,1 90
of temporomandibular joint, 114
of thoracic spine, 172
of upper cervical spine,1 30
of wrist, 232
Arm Sl!e Upper limb
Arthritis, 19, 20, 237
Arthrogenic gait, 44
Atlanto-axial joint, 135-6, 136, 137, 144,
144
Atlanto-occipital joint, 135, 136, 144
Attitudes (patients'),4 5
ha nd problems, 237
lumbar spine problems, 263
Axillary nerve, 73
B
Babinski response, 70
Back pain
counterfeit presentations, 32, 33
in pregnancy, 279, 281, 282
see also Cervicothoracic spine;
Lumbar spine; Pelvic region;
Thoracic spine
Baer's point, 270
Balance test, 306--7, 327, 349
Barrel chest, 176
Behaviour of symptoms, 8, 15-19
ankle, 339-40
case scenarios, 25, 29-30, 31
cervicothoracic spine, 153-4
elbow region, 214-15
368 INDEX
Behaviour of symptoms (collt'd)
fOOl, 339-40
hand,232-4
hip region, 298-9
knee region, 3 14-16
pelvis, 280-2
shoulder region, 190--1
temporomandibular joint. 115-16
thoracic spine, 173--4
upper cervical spine. 131-3
wrist, 232--4
Biceps, reflex testing. 81
Biceps femoris
knee joint integrity, 320, 321
trigger points, 95
Bicipital tendinitis, 64, 202
Biofeedback units. pressure, 140-1,
140,161
Body charts, 8-9, 9
abnormal sens.,tions, 14
ankle symptoms. 339
case scenarios. 23. 29-30
ccrvicothoracic spine, 152
depth of pain. 14
elbow symplOms. 2 14
fool symptoms. 339
hand symptoms, 232
hip symptoms. 298
illness behaviours. 12-13,12
intensity of pain, 13-14,1 3
knee symptoms. 314
lumbnr spine, 258-9
pelvic l-tymptoms. 280
quality of pOlin, 13,13
referred pain. 9- 12.10-12
shoulder symptoms, 190
symptom constancy, 14
symptom relationships, 14-15
temporomandibular joint, 1 14-15
thoracic spine, 172-3
upper cervical spine, 130-1
wrist symptoms, 232
Bone alignment, foot problems,
348-9
Bone disease
metastases, 32
and spine mobilization, 19
Bone lengths, leg measurements, 270,
288,306,326
Bone nerve supply, sclcrotomes, 65, n
Bone prominence, 90
knec,328-9
Bone tenderness, 90
hip region, 307
knee, 328
lumbilr spine, 270
pelvis, 288
Bouchard's nodes, 237
Boutonniere deformity, 236, 237
Brachial plexus, 64, 9 1
Tinel's sign, 162,203
Brachial plexus tension tests (BPrrs)
sel! Upper limb tension tests
Bur"titis, hip region, 307
c
Calcaneus
joint tests, 345
knee problems, 318
leg-heel alignment, 348
SCI! also Talocalcaneal joint
Camptodactyly,236
Cancer, 19, 32-3
Capsular patterns, 52, 53
ankle, 3􀂈6
cervicothorilcic spine, 159
elbow region, 22 1
fOOI,346
hand, 241
hip jOint, 304
knee joint, 323
lumbar spine, 267
shoulder region, 198
temporomandibular joint, 52, 120
thoracic spine, 179
upper cervical spine, 139
wrist, 241
Carpal tunnel syndrome, 243, 244
Carpometacarpal joints, 231
accessory movements, 2-16, 248-9
active physiological movements,
238,240,241
capsular patterns, 52, 241
Cauda equina lesions, 19, 21, 269
Centralization of symptoms, jOint tests,
49,50, 158, 179,266
Cervic,, 1 flexors
control, 140-1, 16 1
function, 56
strength tests, 58-9, 140,141
Cervical nerve roots, myotome Ii..>sting,
78-9
Cervical spine
cutaneous nerve supply, 66
definitions, 129
derma tomes, 66
physical examiniltion
capsular patterns, 52, 139, 159
cervicothoracic, 155-66,168
clearing tests, 55,139,140,160
dizziness, 142
posture, 42, 43
and temporomandibular jOint,
1 19-20
upper cervical, 134-46,148
possible causes of problems, 129-30
subjective examination
aggravating factors, 16, 25, 31,131
case scenilrios, 23, 25, 29, 31
cervicothoracic, 152-5,167
dizziness, 21, 130, 133
mobilization trentment, 19, 20
sleep problems, 18
and temporomandibular joint,
113-14
upper cervical, 130-4,147
Cervical traction, 145-6,146
Cervicothoracic spine
completion of examination, 166
definition, 151
derangement syndromes, 158,159
physical examination, 155-66,168
possible causes of problem.!., 15 1-2
subjective examination, 152-5,167
Childhood foot problems, 338
Chondromalnda patella, 327
Chvostek test, 122
Clavicle, 206, 207
see also Acromioclavicular joint;
Sternoclilvicular joint
Claw hand, 236
Clearing tests, 53, 55
ankle, 346, 346
cervicothoracic spine, 160
elbow, 222
fool, 346, 346
hand,242
hip, 305
knee, 324, 324
lumb.u spine, 267, 267
pelvis, 287, 287
shoulder, 200, 201
temporomandibular joint, 120--1, 12')
uppcr cervical spine, 139, 140
wrist, 2􀂈2
Clinodactyly,236
Club nails, 237
Coccyx accessory movements, 273,
273,290
Cold intolerance, 233
Collateral ligaments, knee, 317, 320,
32 1
Colles fractures, 48
Combined movement tests, 49-52
cervicothoracic spine, 158
elbow region, 2 19
lumbar spine, 266, 266
.!.houlder region, 198
thoradc spine, 179,179,185
upper cervical spine, 138-9
Communication with patient .. , 3, 6, 7,
45
CompresSion, jOint tests, 52, 326--7
Compression p<,tterns, joint tests, 51
Congenital dislocation of hip, 307
Constant symptoms, 14
upper cervical spine, 131
Contraception, IUDs,.300
Coping strategies, I 19
oronal stress tests, 136,137
Corticosteroid therapy, 20
Costochondral joints, 183,185
Counterfeit presentations, 30-33
Cruciate ligaments
functional scales, 328
knee joint integrity tests, 3 19, 320,
32 1
rupture, 316--17, 317
Cubital tunnel syndrome, 223
Cutaneous nerve distribution, 65,
66-70
abnormal !-tensalions, 14
cervicothoracic hpine, 161
elbow region, 223
hilnd.24-'
Ilip region, 306
knee region, 325
lumbar !:>pine. 269
shoulder region, 203
temporomandibular Joint, 122
thoracic spme, 181
upper cervical spine, 141
wri.,t,244
o
Daily functioning 'it" Functional ability
de Quervain'., disease. 243
Deep Hill thrombosis, :\48
Deltoids, trigger points, 93
Derangement syndrom􀅁. 49
cervicothoracic spine, 158.159
lumbJr "pme, 266, 267
thoracic spine, 179,179
Dermiltom􀅂. 65, 66-70
.lbnormal ::.cn5
ankle, :\47
ccrvicothoracic spine. 161
elbow region. 223
foot. J47
h.lnd.244
hlp region, 306
knee region. 325
lumbar spine, 269
,;en
shou ltier region, 203
temporomandibular JOint. 122
Ihor.1Cic spme, 181
upper cervical spme, 141
wri<;t. 2􀅃
Oc).:tenty Ie-,ts, 245
Di"betl�, 234, 341
DIfferentiation tests, 52-3
ankle symptoms, 346
cl'rvicothoracic spine, 159
elbow rt..'Sion, 219-21, 220
foot symptoms, 346
hlp symptoms, 303-4
knl'e c,ymptoms, 323
lumbar spine, 266
pdvic "ymptoms, 285
shoulder c,ymptoms, 198
temporomandibular )oint, IIQ-20
thoracic spine, 179,180
upper cervical spine, 139
wn.,t, 240-1
Dislocation of hips, 307
Di .. trachon tests, 52
knee,:J2b-7
upper cervical spine, 135
Dizziness, 21
cervicothoracic spllle, 152, 162-3
elbow region, 216
and .. pine mobilization, 19
and temporomandibular joint, 114
upper cervical spine, 21, 130, 133,
142
vertebral artery test, 142
Dorsine'l(ion of ankle joinl, 355, 356
Drop foot gait, 44
Drug therapy, 20
Dupuytren's disease. 234
Dysfunction syndromes, 49, 179,266
E
Easing factors. 15-16
ankle symptoms, 339-40
CilSC scenario. 25
cervicothoracic spine, 153
elbow symptoms, 215
foot symptoms, 339-40
hand,233
hip symptoms, 298--9
knee symptoms, 315
lumbar spine, 259, 260
pelvic symptoms, 281
shoulder symptoms. 191
temporom.lndibu1ar joint. 115
thoracic "pille, 173
upper cervical spine, 131-2
wrist symptoms, 233
Elbow region
completion of examination, 227-30
definition, 213
physic,,1 examination, 52, 55. 217-27,
229
possible causes of problems. 213-14
subjective elCamin"tion, 16, 214-17,
228
'Empty can' tL�t. 202
End feels, JOint resIstance, 48, 48
Erector "pinae, length tests, 60-1
Evening symptoms, 18
lumb.u spine, 260
pelvis, 281
temporomandibular joint, 115
thoracic spine, 173-4
upper cervical spine. 132
Extensor rt..'Sponse, 70
External rotational recurvatum tL�t.
]21,321
Extrinsic muscle lightness, 2-12-3
F
Faber's test, 304, 304
Face
cutaneous nerve supply, 66
physical examination, 118,118
trigger points, 92
Facial nerve palsy, 122
Fairbank's apprehension test, 321
Family history (FH), 8, 21
lumbar spine, 262
wrist and hand examination, 235
Feelings (patients'), 45
hand problems, 237
INDEX 369
lumbar spine problems, 261
Femoral nerve, 76
Femur
internal rotation, 118
position of patella and, 328, 329
shear test, 2S9, 289
set' also Patellofemoral JOint;
Tibiofemoral Joint
Fibula, 332, 333, 333, 350, 355
􀁓'f.' also Tibiofibular JOints
Fingers, 236
accessory movements, 246, 248-9,
250,251,251,2.14
capsular p.ltterns, 52, 2-11
clearing tests, 55
common deformities, 􀅄7, 236-7
jolOt integrity tests, 237
muscle tests, 242-3
neurological tcsts, 244
overpressures, 239-40, 240
trigger points, 93
Finkelstein test, 243
Rat back po3ture, 38-9, 41, 176,263
Flexion/adduction test, hip, 30-4, 304
Flexor digitorum superficiatis (FDS)
test, 243
Foot
completion o{ examination, 356--9
cutaneous nerve supply, 69
definition, 337
physical examiniltion, 52, 70, 342-56,
358
possible causes o{ problems, 338
subjeCtive exammation, 16, 339-42,
357
trigger points, 95
Fore{oot-heel ilhgnment, 348
Froment's Sign, 244
Fulcrum test, 195,195
Functional ability, 18,36, Q()
ankle problems, 340, 349
cervicothoracic spine, 153-4. 163
elbow problems, 215, 224
foot problems, 340, 349
hand problems, 2.33-1, 245
hip problems, 299, 307
knee problems, 315-16, 328
lumbar spine, 260-1, 270
pelvic symptoms, 281-2, 288
shoulder region, 191-2,204
temporomandibular joint, 115-16,
122-3
thoracic spine, 174,182
upper cervical "pme, 132, 142
wrist problems, 233-4, 2-15
Funnel chest, 176
G
Cait patterns, 44-5
ankle problems, 3-13
370 INDEX
Gait patterns (collf'd)
foot problems, 343
hip problems, 302
knee problems, 319
lumbar spine, 263
pelvic problems, 285
thoracic spine, 176
Gapping test, 272, 288-9, 289
Gastrocnemius. 63, 95, 319-20
General health, 20
hip problems. 300
pregnancy and back pain, 282
shoulder problems, 192
Genu valgum, 318
Genu varum,3 18
Gillet (standing hip flexion) test, 285-6,
286,291
Glenohumeral (GH) joint, 189
nrca of symptoms. 190
physical examination, 195-200, 205,
20&-7, 207-8
Global mobilizer muscles, 55, 56
Global stabilizer muscles, 55, 56
Glossary of terms, xiv
Clule .. ] nerves, 77
Gluteus maximus gait, 44, 176,263,
285,302
Gluteus muscles
function, 56
strength tests, 58--9
trigger points, 95
Golfer's elbow, 222, 223
Grip strength, 242
H
Hamstrings. 56, 62-3
Hand
common deformities, 236--7, 236--7
completion of examination, 254
definition, 231
physical examination, 52, 55, 235-54,
253
possible causes of problems, 231-2
subjective examination, 16, 232-5,
252
trigger points, 93
Hand function tests,2 45
Hand volume test, 245
Handedness posture, 40-1, 42,176,263
Head
cutaneous nerve supply, 66
derma tomes, 66
trigger pOints, 92
Headaches
aggravating factors, 16,131
case scenario, 23, 25, 31
of cervical origin, 129-32, 133, 139,
140,145-<;,161
intensity grading, 131
Hcberden's nodes. 237
Ht.'C1
alignments, 348
gail p.,tterns, 343
see also Calcaneus; Talocalcaneal
joint
Heparin ther"py, 20
Hiatus hernia, 31
Hibbs test, 287, 287
Hip region
completion of examination, 309-12
physical examination, 52, 55, 301-9,
311
possible causes of problems, 297-8
subjective examination. 16, 298-301.
310
History of present condition (HPC), 21
ankle, 341
cervicothor"cic spine, '15-1
elbow region, 216
foot, 341
hand,234-5
hip region, 300
knee, 316-17, 317
lumbar spine, 261
pelvic symptoms, 282-3
shoulder region, 192
temporomandibular joint. 116
thoracic spine, 174-5
upper cervical spine, 133
wrist, 234-5
History taking SL'e Family history;
History of present condition;
Past medical history; Social
history
Holistic model o( health, 361
Homans' sign, 348
Humeroulnar joint, 213
physical examination, 219-21. 220,
225,225,226
Humerus
elbow region symptoms, 218, 219.
224
shoulder region symptoms, 194,
198-200,205,206-7,208
supracondylar process syndrome,
224
Hyoid bone, 121,121
Hypalgesia. 14
Hyperaesthesia, 14
Hyperalgesia, 14
Hypermobility, spine mobilization, 19
Hypoaesthesia, 14
Iliopsoas, length tests, 62-3
Iliotibial band, jOint integrity, 320, 321
Ilium,s< ,croiliac joint dysfunctions,
291-2,292
see also S.,croiliac joint
Illness behaviours, 12-13, 12
and easing faclors, 16
and family history, 21
lumbar spine problems, 258, 258, 263
Imaging. X-rays see X-rays
Impingement of supraspinatus tendon,
202,202
Inferosuperior glide, sacroiliac ;Oint,
290
Injuring movement tests, 52
Innominate, 286. 287, 290
Instantaneous axis of rotation (JAR), 46
Integrity tests, ;oints, 45
ankle, 343-4. 344
cervicothoracic spIne, 156
elbow region, 218. 218
fingers, 237
foot, 343-4, 344
hip region, 302
knee region, 319-21, 319-21
lumbar spine, 263-4, 264
shoulder region, 194-5,194-5
temporomandibular ;oint, 119
thoracic spine, 176-7,1"
thumb,237
upper cervical spine, 135-7.136--7
wrist, 237
Integrity tests, nervous system. 64-70
ankle, 347
cervicothoracic spine. 161-2
elbow region, 223
foot, 347
hand,244
hip problems, 305-6
knee, 325
lumbar spine, 269
shoulder region, 203
temporomandibular joint, 122
thoracic spine, 181
upper cervical spine. 141
wrist, 244
Interc.,rpal joints, 231. 246, 247
Interchondral joints,1 83,1 85
Intermetacarp.11 joints, 239, 240, 249,
250
Intermetatarsal joints, 337, 352, 354
Intermittent symptoms, 14
upper cervical spine, 131
Interphalangeal joints (IP1s) of foot,
337
accessory movements, 354
joint tests, J4..1, 345
Interphalangeal joints OI'Js) of hand,
231
accessory movements, 249, 250, 251,
251,254
joint tests, 240,240
muscle tests, 242
1ntertarsal jOints, 350, 351-2, 354
Intrauterine devices. 300
Intrinsic muscle tightness, 242
Inversion of foot and ankle, 356. 356
Irregular patterns, joint tests, 51
Irritability of symptoms, 16-17
Ischaemia of nerves, 14
Isometric muscle testing, 59, 63
ankle, 347
cervicothoracic spine. 161
elbow region, 222-3
foOI,347
hand,241
hip 􀅔ymploms, 305
knl'e,12.,
lumbar .. pine. 269
.. hnuldcr region. 202
temporomandibular JOint, 121·-2
thoracic ... pine. 181
up􀅕r (l'r\"ical spine. 141
wrI">t.241
J
Jebson· Taylor hand function leo-I,
24,
J(·rJ... tt.... t.. . 195,195
Joint ('(Iu .. ion. 53
k m .. 'e,128
Joint movement tests 'it'l' Active
phy .. iological joint movements;
I'.. ....i vc physiological JOlIlt
movcments
Joint pklurt.'S. 100-1. 101-2
Joint range measurement, 47
Joint n.... i.. ..I
end f(.leI .. , 48. 48
glQ<,s.ary of terms, xiv
joint pICtures. 100-1. 101-2
movement diagrams. 98-9, 98,
100
Joint h ....... I ... 36, 45-53
.1nkll,,343--6
ccrvicolhor,lcic spine, I􀅘
elbow rt.'gion, 218-22
fOOl, J.I J--6
h.mu,237-42
hlp region. 102--4
knee rt..'glon. 319-24
lumb.u ..p ine. 263-7
s.lcrolliac JOint. 285-7
..h oulder region,1 94-2(Xl
temporomandibular jomt,
119-21
thor.Kic ... pine. 176-80
upper cervical spine, 135-9
\\'rist,237--42
􀁒'l' a/",' Acccswry mo .... ements
K
Knl't.' Jerk, 81, 325
Knl'C n..- g ion
completion of examination, 333-6
definition, 313
physical examination, 52, 55, 81, %,
317-33,335,343
po<.,slble cause, of problems,
113-14
subjectl .... e e",amination, 16. 314 -18,
334
Kypho<.i<;-lordOSis posture, 38. 39. 176.
261
L
L.lchman's test. 320, 320
L..lteral abdominal musclc control, 181,
268
L..lteral p.ltellar retinaculum, 329
L.lteral pivot shift test, 320-1, 321
L..lteral tilt, p.ltella, 329
Llhssimus dorsi, 56, 62-3
Layer syndrome, 38, 40, 176,263
Leg alignment, 343, 348
Leg length measurement, 270, 288, 306,
326
Levator c,.capulae
function, 56
imbalance. 201, 201
length Il'StS, 60
tri!Q;er points. 92
Ligamenlous instability t􀁸t
elbow, 218, 219
thumb and fingers, 237
LlIlburg's sign, 243
Local stabiliL.cr muscles, 55. 56
Longitudinal caudad, 289-90, 289
Lowcr limb
cutanl'OU'" nerve supply, 69
dermatomt'S,70
leg alignment, 343
leg length measurement, 270, 288,
306,326
muscle innervation, 76-7
palpable nerves, 91, %
sclerotomes, 71
trigger points. 95
see a/􀅙 Ankle; Foot; Hlp region;
Knee region
Lower (pelvic) crossed syndrome, 38,
39,176,263
LumbM nerve rools, myotome testlllg,
80-1
Lumbar ... pine
case scenario, 25, 29-30, 30, 31
complelion of examination, 273-4
counterfeit presentations, 32, 33
definition, 257
and pelvic symptom.s, 287
physical examination, 42, 43, 52-3,
55,262-73,216,287
po<.,'tiblc causes of problems, 257-8
in pregnancy, 282
subjective examination, 5-6, 16,
251H>2,215
Lunotriquetral ballottement test, 237
M
McConnell test, 327
McMurray tests, 326, 326
Malignant disease, 19, 32-3
Mallet finger, 236
Management planning forms, 107-10
Manual lherapy, history, 1-2
INDEX 371
Mattresses, 1 8
Medial ligament of knee, 317, 319,
320
Median nerve, 64, 74
carpal tunnel compresSIOn, 243, 244
diagnostic te;ts, 223-4
palpation, 91
upper limb tension tests, 85, 86-7
Median nerve palSY, 236
Meniscal injury, 317, 325--6, 326
Metacarpophalangeal JOmts (MO'js),
231,239,240,242-3,249,250
Metatarsophalilngcill joInts, 337
accessory movements, 352-3, 354.
356,356
cap<,ular patterns, 52, 346
gait p.ltterns, 343
joint It"S Is. 344, 345,346 , 346
\tIidcarpal test, 237
M,dl.",,1 JOonl, 52, 337, 343, 346
Mmnesola rate of mallipulalion test,
245
Moberg pick up test, 245
Mobility of nervous system st't'
Neurodyn
Mobilizations with movement
(MWM), 102-3
ankle, 35$-6, 355-6
elbow region, 227, 227
fool, 356, 356
forearm, 251,251
hip, 309, 309
interphalangeal joinls, 251, 251
shoulder region, 206-7, 207-8
tibio(emoral joint, 333, 333
wrist. 251, 251
Mobilizer muscles, 55, 56
Morning symptoms, 18
ccrvicothoracic spine, 153
fool,340
hip region, 299
lumbar spine, 260
pelvis, 281
temporomandibular JOint, 115
thoracic spine, 173-4
upper cervical spine, 132
Motor neurone I􀁸ions, 122
'Aovement diagrams, xiv, 97-101,
91-102
Movement-system function, 46--7
Movement tests, JOints see Active
physiological JOint movementsi
Passive physiological jOint
movements
Movie sign, 315
Multifidus
function, 56
strength, 268, 268
trigger points, 92, 94
Muscle bulk, 6J.....4
ankle problems, 347
foot prOblems. 347
hip problems, 305
knee, 325
372 INDEX
Muscle control, 57
cervicothoracic spine, 160-1
hip problems. 305
knee, 324
lumbar spine. 268
pelvic symptoms, 287
shoulder region, 200-1, 201
temporomandibular joint, 121,121
thoracic spine, 180-1
upper cervical 􀃚pine, 140-1
Muscle form, 42-4
ankle problems, 343
c('r"kolhoracic spine, 156,156
foot problems, 343
hand, 236
hip problems, 302
knee problems, 318-19
lumbar spine, 263
pelvis, 284-5
temporomandibular joint, 118
wrist, 236
Muscle imbnlancc, 44, 55--6
cervicothoracic spine. 156,156,161
knee problems, 324
shoulder region. 200-1. 201
thoradc spine, 176, 181
upper cervical spine, 135
Muscle innervation, 65, 71-7
,,"kle,347-8
c('rvkolhoradc spine, 161-2
elbow region, 223
fool,347-8
h.md.244
hip region, 306
knee region. 325
lumbar spine, 269
shoulder region, 203
temporomandibular joint, 122
thoracic spine, 181
upper cervical spine, 141
wrist, 244
Muscle involvement
aggravating (actors, 16
gait. 44
layer syndrome. 38, 40
movement-system function, 46. 47
poslure, 38-41,42
Muscle length, 57. 59, 60-3
ankle, 347
ccrvicothoracic spine. 161
elbow region, 222
fool,347
hand,242-3
hip problems, 305
knee, 324
lumbar spine. 268-9
pelvic symptoms. 287
shoulder r􀁑gion. 202
temporomandibular joint. 121
thoracic spine, 181
upper cervical spine, 141
wrist, 242-3
Muscle spasm
joint pictures, 100-1.101-2
joint tests, 47
movement diagrams, 99-100, 100
Muscle strength, 56--7. 56, 57, 58--9
ankle, 347
cervicothoracic spine, 160
elbow region, 222
foot, 347
hand,242
hip region, 305
knee, 324
lumbar spine, 268, 268
neurological tests, 65. 66, 70, 78--81
seen/so Myotomcs
shoulder region, 200
temporomandibulnr joint, 121
thoracic spine, 180
upper cervical spine, 140
wrist, 242
Muscle stress reactions, 44, 44
Muscle tests, 36, 53-64
ankJe symptoms, 347
cervicothoracic spine, 160-1
elbow symptoms, 222-3
foot symptoms, 347
hand symptoms, 242-4
hip problems, 305
knee problems, 324-5
lumbar spine, 268--9
neurological, 65, 66. 70, 78--81
see also M yotomes
pelvic symptoms, 287
shoulder symptoms, 200-2. 201-2
temporomandibular joint, 121-2,121
thoracic spine. 180-1
upper cervical spine, 139-41
wrist symptoms. 242-4
Myofascial trigger points, 91--6, 92-5
Myotomes, 65, 71-7
ankle, 347--8
cervicothoracic spine, 161-2
elbow reglon, 223
fool, 347-8
hand,244
hip region, 306
knee region, 325
lumbar spine. 269
shoulder region, 203
temporomandibular joint, 122
testing, 70, 78--81
thoracic spine, 181
upper cervical spine, 141
wrist, 244
N
Nails, 44, 236, 237
Natural apophyseal glides (NAGs),
102-3
cervicothoracic spinc, 165-6,165
sustained see Sustained natural
apophyseal glides
, eck
cutaneous nerve supply, 66
derma tomes, 66
trigger points, 92
seen/so Cervical spinc
Neck flexors
control, 140-1, 161
function, 56
strength tests, 58--9,140,141
Nerve palpation. 91, %
'ervous system mobility see
Neurodynamic tests
Nervous tension, aggravilting ractor!>,
16
Nervous tissue mobilization, 90
Neurodynamic tcsts, 70-88. 82-90
ankle problems, 348
cervicothoracic spine, 162
elbow problems, 223
(oot problems, 348
hand problems, 244
hip problems, 306
knee problems, 325
lumbar spine, 269
shoulder problems, 203
temporomandibular JOint. 122
thoracic spine, 181
upper cervical spine, 141
wrist problems. 244
eurogenic pain, 12
Neurogenic symptoms, 14
eurological symptoms, 20-1
ankle, 341
fOOl,341
hand,234
hip problems, 300
knee problems, 316
lumbar spine, 261
pelvis, 282
Neurological tests, 36, 64-88
ankle problems. 347--8
cervicothoracic spine, 161-2
elbow region, 223-4
foot problems, 347--8
hand,244
hip problems, 305-6
knee, 325
lumbar spine, 269
pelvis, 287
shoulder region, 203
temporomandibular joint, 122
thoraac spine, 181
upper cervical spine, 141
wrist, 244-
Night symptoms, 17-18
Nine-hole peg test, 245
Nociceptive pain, 12
Nucleus pulposus, 49
o
Objective examination see Physical
examination
Oblique ligament, knee joint, 320
Observation, 36--8, 36
ankle probk'nh, 142-3
attlludl.. ... -)5
(l'rVicllthor.lcic 􀂹pinl.', 155---6
elbow rl'􀁱i()n. 217· 18
fl't'ling't, 45
foul problems, :1-12 .:\
g.lll, 44-5
h.lnd, 2.16-7
lup problems, 301
"'nl􀂺 problem ... 􀁽 1 􀁾 19
lumbar "'pine, 262· 3
mu<;clc fonn, 42-1
pdvil: wmptoms, 284 -5
po'tturl,. 17-42
.. houldcr rt􀉜Bion, 191-4
<;oft ti ..... ut... ..,.. 44
Il..'mjX)rom.lndibular JOint. I l i-\9
thor.Kil' .. pine, 176
upt"ICr cervicai spine. lJ4-5
wri ... t. 2.lb-7
Obtur,llur nern', 76
Octlplt.,l mu-.cie length Il, .. I .. , 􀉝1
Ot.'1.icm.l
ankll' region, 349
dbow rl'gion, 224
(001. :W􀅖
hand \'olume Ie-.I, 24"
knL"t.' rt..'glon. 128
... houldl'r n.-gion, 204
Okxr,lnon. elbow probIL·m .. , 21S. 218,
225. 226
Orlol.lni'., .. ign tesls, '\07
o..tL"(l
();leoporosi!>, 19
OH'rprt..'.. 􀂹 un..'.. , 47-8
ankle, 144,3-15
(l'rvlCulhor.ll.:ic "'pine, 157-8, 1 􀅔
clbo\\' rt.􀁱i(ln, 21R-19, 220
foot, :W􀅕, 345
hand. 231>-40. 240
hip problt:'m .., 302, 303
knt.􀂺 rt.'gion, :l22, 323
lumbar spm(', 264, 26􀉞
􀉟hould('r region, 19C).....8, 196-7
and .. ymptom "C\,crity, 17
tt:'mpc.)rom.lndibular joint, 1 19, 120
thoracK "plne, 177, 178
uppcr cervical spine, 137-8, 138
wri .. t, 238-40, 240
p
P.lm, 6, 9-1 0
.1okle problems, :rw
central 'i('n."ltization, 1 2
cer... icothoracic "pine, 1 􀉠2
con .. t.lIKy. 14
countcrfeit pre;"cntation.,. :l2
depth, 14
dimen .. ions. 6. 8
I!IbllW rt.􀁱i(ln, 214
foot problems, :nq
Ilip region, 298
illnl"s bt.'htlviours. 1 2-13, 12, 1 6
intcll";ity. 13-14. 13
joint movement diagrams, 99, 99,
100
joint picture.. , 1(X)-1, 101-2
joint t(-"it.. , 47. 48, 49
knee region, :l14
lumbar SPIIlC, 2SS-9, 258--9
nociceptive. 12
􀉡I ... ic .. ymptoms, 280
peripheral neurogenic, 1 2
provocation, 1b-17
quality, 13, 13
referred, 9 12, 10--12. 32
scns..ltion !i..'Sls, 65
shoulder region, 190, 198
temporomandibular joint. 1 14
thor<1cic "pine, 172
upper ccrvic.ll "pinc, 13O--1
Pain behaviour, joint tests, 47, 48
Pain diaril;.'S, 14
PainJ...iller ..
and exanllnation of patient. 20
headache grading. 132
Palp..ltion, 36, 90--6
ankle, 349. 35.3--4
cervicothoraeic spine, 163
elbow region, 224-5
foot, 349, 353-4
hand, 245-6
hlp region, 107
knee f\;."'gion, 328-9
lumbar spine. 270-1
pelvis, 288
of pul ... c .. 􀁐(. Pul .. l"'>, p .. lpation of
.. houlder rcgion, 20-1
temporomandibular lOint, 123
thoraeic spine, 182, 185
upperccrvical spme, 142-3
wrist, 245-6
Para..t.. t.. ht....,ia, 14, 2 1
C.l'-C ""en<1rio. 23, 25. 31
cauda t.'qulOa comprcs';ion, 262, 282
pcriphcrill nerVI! tests, 244
Pa';sive acccs<;()ry intervertebrill
mo\"emenh (PAIVMs)
cef\·icothoracic !
lumbilf .,pme. 271-3. 2n-3
thoracic "'pine, 182-4
upper ct:'r\"ical "pint:', 143--6
Pas.. i \,c (prone) knee bend (PKB). 79,
8 1 . 83
hip problem';, :106
knt.>c problem .. , 325
lumbar "'pine, 269
thor.leic .. pine. 181
P.1<;"I\'(.' nt.C.' k flexion (P􀉢F), 79, 82
cef\'icothorJeic ... pine. 162
hip problem .. , J06
knt.-'C,325
tumb .. r ... pine, 269
temporomandibular }Oint, 122
thor.lcic spinc, 181
uppcr cer\,ical "'pine, 141
INDEX 373
Pa ..... ive physiologic.l1 intervertebral
movements (PI>IVM .. ), 53, 54
ccrvicothoracic "'pine, 159-60, 160
lumbar spine. 267, 267, 287
pelvic symptoms, 287
thoracic spine, 179-80, 180
upper cervical SPIllC, 139. 139
Pas.,ive physiological }Oint
movement ... , 45-6, 53
ankle. 346
cervicothoraeic "pine, 159-6()
elbow region, 221 ·2, 221
foot. 346
hand,241-2
hip. 3Q.l-5. 304
knee, 323-4. 323
lumbar spine. 267. 267, 287
S
'ihoulder region, 198--200, 199
temporomandibular jOint, 1 20
thoracic spin!.', 179-80, 180
upper cCf\·ical "pine, 139
wrist, 241-2
I>ast medical history (PMI I), 8, 21
ankle. 341
.
cervicothor.lcie ..p ine, 1 􀅓- 5
elbow region, 2 1 6
foot, 341
h.lnd, 235
hip region. 300
knee problems, 317
lumbar spine, 261-2
pelvic symptom .. , 281
.. Imulder region, 192-3
temporomandibular JOint, 1 16-17
thoracic "pine, 175
upper cervical .,pine, 1 14
wrist, 235
P.ltcHa
accessory movement." 331
anteropO:,tcrior tilt, 329
chondromalacia patella, 327
Fairbank's apprehen"l(lI1 t􀉣t, 321
fal pad enlilrgement. 318
rat pad irntation, 317, 324, 327
lateral tilt, 329
length of lateral retinaculum. 329
muscle control, 324
plica, 327, 327, 328
position, 328--9
Q angle. 125. 34J
rotation, 329
tendlllitis, 317
􀅗'(' (Jfso Patellofemoral Joinl
Patcllofemoral JOint. 3 1 3
accessory movement1-, 329. 330--1
aggravating factof'i., 3 1 5
clearing tests, 55
differentiation t􀉤t<;, 32.1
internal femoral rotiltion, 318
management planning example, 105
muscle imb.l. l.lnce, 324
patellar rotation, 329
subluxation, 317, 317
374 INDEX
'''cctoTalis muscles, 6G-l. 94
r'egbo.."ud K􀁇ts, 245
Pelvic (lower) crossed syndrome, 18,
39, 176, 263
I>dvic region
completion of (')lamination, 292
dcfirution, 279
phv .. ical examination, 52, 55. 283-92.
294
l:'lO'.Sible ("uses of problem!>, 279-80
sub)l'Ctivc examination, 16, 280-3,
293
PI:'I vic lilt, 284
and cervical 􀁍pine po􀁍turc, 42, 43
and knee problems, 318
Peptic ulcer ... , 31
Peripherillization of symptom." }OInt
,,'St>, 49, SO, 1 58, 1 79,266
Permeable brick wall concept, 5-6. 6
PCToneal nerve" 69, 76. 91, 96
Peroneu., muscl􀁇, 59, 95
Pc., cavus, 348
Pc .. planus. 349
Phalen's wrist nexion test, 244
Phy.!>icai examination, 35-6. 36
ankle, 342-56
(crvicothoTtldc spine, 155-66
chart. 106
completion, 103--5
elbow region, 217-27
foUl, 342-50
hand, 235-51
hip region, 301-9
irritability of symptom::., 16-17
knee region, 3 I 7-33
lumbar spine, 262-73
man.lgement planning form">,
107-10
pelvil: symptoms, 28J--92
pl.mnmg of 'it'(' )'Iannlng of physical
cl(amination
severity of symptoms, 16-17
􀁍houldl'r region, 193-207
step'" in 􀁏'e Accessory movements;
Functional ability; Joint tl'.Sts;
Muscle tests; Neurological tests;
Observation; Palp.l. tion; Special
t􀁇ts
temporomandibular JOint, 1 1 7-24
thor.lcic spine, 175--84
upper cervical spine, 1 34-46
wri.,t, 235-51
PhYMological movements
and acctwisory movements, %
definition, xiv, 45
St'/.' a/o;o Active physiological joint
movements; PaSSive
physiological joint movements
Pick up t􀁇t, 245
Picdallu's sign (sitting flexion test),
285, 285, 292
Pigcon chest, 176
Pillt.w.·". 18
Pinch-grip tC'>t, 223-4
Pinch strength, 242
PiriformiS. length tests, 62-3
Pisotriquetral joint, 246, 248
Planning of physic.l1 examination,
16-17, 23, 24-7
ankle, 342
cervirothoracic "pine, 155
elbow region, 217
foot, 342
hand, 235
hip region, 101
kncc, 317-18
lumbar .,pine. 262
pelvic symptoms, 283
shoulder region, 193
temporomandibular JOint, 1 1 7
thoracic spine. 175
upper cervical "pine, 1 :\4
wrist, 235
Plantar f.1SCiitis, 340
Plantar nern.'S. n
Plantar respon􀇋, motor neurone
Ie-.ionc.., 122
Plantarflexion of ilnkle joinl, 35􀇌. 355
Plica syndrome, 327, 328
Polymyalgia rheumatica, 19
Posterior draw test, 320, 320
P􀇍terior gapping (approximation)
te;!, 272-3, 289, 289
Posterior rotation, s.-,croiliac joint
dyc..(unchon, 291
Posterior .,hear test, 289, 289
Posterolilteral draw t􀁇t, 321
J'􀇎terolateral 10iIlt capsule, 320, 321
Posterolateral 􀁍"'bi1ity, knee, 321, 321
Postural syndromes, 158, 264
Posture, 37-42
ankle problems, 342
cervicothoracic spine, 156
elbow region, 217
foot problem!>, 342
hilnd, 236
hip problem􀂞, 301-2
ideill alignment, 37
knee problems, 318
lumbar !>pine, 263
pelvic symptoms, 284, 284
shoulder region, 193-4
temporomandibular joint, 118
thoracic 'ipme, 1 76
upper cer\'ical spine, 135
wrist, 236
Pregnancy
and hip problems, 300
pelvic problems in, 281, 282, 283
spine mobiliLation, 19
Pres!.ure biofeedback units (PBUs).
14(H, 140, 161
Pronation, foot, 343. 348-9
Pronalor syndrome, 22-1
Prone (pa;􀂞I\'e) knee bend (PKB), 79,
8 1 , 83
hlp problem';, 306
knee problem!., 325
lumbar spme, 269
thoracic spinf', 181
Prone trunk extcn.,um h:st, 266, 286,
292
Proprioceptive dy.,fun('linn, 106-7,
127,349
Provocative elevallon II.-..,t, 20J...4
P-,o.l!> major, function. 56
PubiC symphy'>lc.., 52, 279, 282, 284
PulSC'>, p.llpatlOn of
ankle problems, 14M
dbow region, 224
foot problemc.., 348
hand, 245
hip region, 106
knef' prahl.:!m." :\26
lumb.lr 􀁍pine, 270
shoulder rl.'gion, 20-1
temporomandlbul.lr )Olnt, 122
upper cer\,ical "pine, 142
wrist, 245
Purdue pt:'gboard h.􀁇t, 245
Q
Quadrant, .,houlder, 198, I 49-2(Xl, 199
Quadrant test, lup, 10-1, 30-1
Quadratus lumborum, 62-3
Quadrice􀇏 (Q) angle, :\25, 3-13
Que!:>lioning proc'-......... h, 7
SCt' afso Spt..'Cial quc.,tionc..
R
R.ldial artery
Adson's m,lnoeuvrc, 20.3, 20-1
Allen test, 203, 2-15
Radial nerve, 64. 85. 88, 'H, 236
Radial tunnel syndrome, 224
Radiocarp..l1 JOillt, 231
physical examm.lt1on, 238, 240, 2-11,
241, 246, 247
Radiography, X􀂟ray" st'l' X􀂟r.lys
Radiohumeral JOint, 21.3
physical examllMtion, 219-21, 220,
226, 226
Radioulnar }Oinh, 213, 2.11
elbow problems, 21S-1,), 226, 227
wrist problems, 240, 241. 241
Rectus abdomini'i, 56, 268
Rectus femoris, length t(",t." 62-3
Referred pain, 9-12, 1 0-12,32
Refle)!; testing, 65, 70, 8-)
ankle, 8t, 325, :\48
cervicothoracic spine, 162
dbow region, 223
hand,2-14
hip region, 106
knee, 81, 325
lumbar spine, 26q
shoulder region, 203
temporom.1I1dlbulM Joint, 122
upper cervical spine, 141
wrist, 244
Regular patterns, joint tests, 51
Regular stretch patterns, S I
Relationship of symptoms, 14-15
ankle problems, 339
cervicolhoracic spine, 152
elbow region, 2 1 4
foot problems, 339
hip region, 298
and history of present condition, 21
lumbar spine, 259
pelvic problems, 280
shoulder region, 190
temporomandibular joint, t 14-15
thoracic spine, 173
upper cervical spine, 1 3 1
wrist, 232
Repeated joint movement tests, 43-9
cervicothoracic spine, 158
lumbar spine, 264-6
Resistance, joints see Joint rcsistnllce
Respiratory tests
lumbar spine problems, 270
pelvic problems, 288
tho􀃯acic spine problems, 182
Resting symptoms, joint tests. 46
Retinaculum, lateral patellar .. 329
Reverse NAGs. cervicothoracic spine,
165-{;
Reverse Phalen's test, 244
ReverseSNAGs, 145, 145
Rheumatoid arthritis (RA)
Bouchard's nodes, 237
spine mobilization, 19, 20
subjective examination, 20
Rhomboids, imbalance, 201, 20"1
5
Sacral nerve roots, myotome testing,
80-1
Sacrococcygeal joint, 52, 279
Sacroiliac joint, 279, 280
accessory movements, 288-90, 289
aggravating factors, 16, 281
and ankylosing spondylitis, 281
completion of examination, 292
dysfunctions of, 291-2, 291
easing {actors, 281
function, 282
general health, 282
history of present condition, 283
joint tests, 52, 55, 285-7, 285--7
morning symptoms, 28\
palpation, 288
planning, 283
posture, 284
Sacrum
accessory movements, 272-3, 272,
290
sacroiliac jOint dysfunctions, 291-2,
292
see also Sacrococcygeal joint;
5.1croiliac joint
Sagittal stress tests, 135-6, 136
Saphenous nerve, 69, 83
Scalenes, 56, 60-1, 93
ScaphOid shift test, 237
Scapula
imb.llance around, "161, 181, 200-1,
201
shoulder lock, 198-9, 199
Scapular nerve, palpation, 91
Scars, 44
Sciatic nerve, 77, 91
Sclcrotomcs, 65, 71
Sens.ltion, 65-6
anklc,341
case scenario, 23, 25, 31
cervicothor
elbow region, 214
foot, 341
hand, 232, 244
hip region, 300
lumbar spine, 261
mapping areas of, 14
pelvic region, 280, 282
peripheral nerve tests, 244
shoulder region, 1 90
spinal conditions, 20--1 , 131, 141,
152, 161, 172, 261
temporomandibular joint, 1 14,122
thoracic spine, 172
Tinel's sign, 162, 203,223, 244
upper cervical spine, 131, 141
wrist, 232, 244
Serratus anterior
function, 56
imbalance, 161, 181,201, 201
strength tests, 58
trigger points, 94
Severity of symptoms, 16--17
Sharp-Perser test, 135--6, 136
Short leg gait, 44, 1 76, 263,285, 302
Shoulder (upper) crossed syndrome,
38,38, 135, 156, 176, 194
Shoulder lock examination, 198-9, 199
Shoulder qU<1drant, 198, 199-200, 199
Shoulder region
completion of examination, 207-8
cutaneous nerve supply, 67, 68
definition, 189
muscle balance, 161, 181, 200--1, 201
physical examination, 52, 55, 16"1,
181, 193-207, 210
possible causes of problems, 1 89-90
subjective examination, 16, 1 90--3,
209
Side-bent sacrum, 292
Sitting nexion test (PicdaJlu's sign),
285, 285, 292
Skin, 41-2, 44
hand, 236--7
nerve distribution see Cutaneous
nerve distribution
'1Nrist, 236
Sleep d istu rba nce, 18
Slocum test, 320, 321
Slump test, 83, 84, 85
INDEX 375
cervicotllOracic spine, 162
hip problems, 306
knee problems, 325
lumbar spine, 269
temporomandibular jOint, 122
thoracic spine, 181
upper cervical spine, 141
Social history (SH), 8, 21
lumbar spine, 262
wrist and hand, 235
Soft tissue observation and tests, 44
foot, 343
hand, 236--7
knee problems, 326--7
lumbar spine, 263
and posture, 41-2
temporomandibular jOint, 1 18
upper cervical spine, 135
wrist, 236
see also Palpation
Soleus, 63, 95
Special questions, 8, 19-21
ankle problems, 340-1
cervicothoracic spine, 154
elbow problems, 216
root problems, 340--1
hand problems, 234
hip problems, 299-300
knee problem.. .. , 3"16
lumbar spine, 261
pelvic symptoms, 282
shoulder problems, 192
temporomandibular jOint, 1 16
thoracic spine, 174
upper cervical spine, 133
wrist problems, 234
Special tests, 36, 90
ankle. 348
cervicolhoracic spine, 1 62-3
elbow region, 224
foot, 348-9
hand, 245
hip, 306-7
knee, 326--7
lumbar spine, 270
pelvic region, 288
shoulder region, 203-4
temporomandibular joint, 122
thoracic spine, 182
upper cervical spine, 141-2, 142
wrist, 245
Speed of movement tests, 49
Speed's test, 64, 202
Spina bifida occulta, 263
Spinal cord compression, 20-1
Spine
capsular patterns, 52, 139, 1 59, 1 79,
267
case scenarios, 23, 25, 29-30, 30, 31
cervicothoracic, 151-68
clearing tests, 53, 55, 139, 140, 160
376 INDEX
Spine (coliI'd)
combined movement tests, 50--1,
138-9, 158, 1 79, 185, 266
counterfeit presentations, 32, 33
cutaneous nerve supply, 66
derangement syndromes, 49, 158,
159, 1 79, 179, 266, 267
derma tomes, 66
differentiation tests, 52-3, 139, 159,
179, 266
and dizziness, 21, 130, 133, 142
dysfunction sYlldromcs, 49, 179, 266
lumbar, 257-76
mobilization treatment 19, 20
palpation chart, 91
passive physiological inteTvertcbral
movements, 53, 54
and pelvic symptoms, 287
posture. 38-40, 41, 42, 43, 1 35, 156,
176, 263
and pregnancy, 282
repealed movement tests, 48--9. 158,
264-6
resistance to accessory movements,
99
and sleep problems, 18
special questions. 20-1
and temporomandibular joint,
1 1 3-14, 1 19-20, 1 2 1 , 1 21
tharaoc, 171-88
upper cervical, 1 29-48
X·rays, 20
Spondylolisthesis, 19
Stabilizer muscles, 55, 56
Stage of condition, 18-19
Standing flexion test, 285, 291
Standing hip flexion (Gillet) test,
285-6, 286, 291
Sternoclavicular (SO joint, 189
accessory movements, 206, 207
area of symptoms, 190
capsular patterns, 52
clearing tests, 55, 200
Sternocleidomnstoid
nnd headaches, 140
length tests, 60
trigger points, 92
Sternocostal joints, 183, 185
Steroid therapy, 20
Stiff hip gait, 45
Stiff knee gait, 45
Stoop test, 269
Straight leg raise (SLR), 52, 79, 82
cervicothoracic spine, 162
hip problems, 306
knee, 325
lumbar spine, 269
temporomandibular jOint, 122
thoracic spine, 181
upper cervical spine, 1 4 "1
Stretch patterns, joint tests, 51
Stretch weakness, 59
Subjective examination, 5-8
ankle, 339-42
case scenarios, 23--30
cervicothoracic spine, 152-5
communication, 3, 6, 7
counterfeit presentations, 30-33
elbow region, 214-17
foot, 339-42
hand, 232-5
hip region, 298-301
knee region, 314-18
lumbar spine, 258-62
pelvic symptoms, 280-3
and physical examination plan, 22,
23, 24-7
shoulder region, 1 90-3
steps in, 8-21
see a/so Behaviour of symptoms;
Body charts; Family history;
History of present condition;
Past medical history; Social
history; Special questions
temporomandibular joint,
1 1 4-17
thoracic spine, tn-5
upper cervical spine, 130-4
wrist, 232-5
Suboccipital muscles, 1 2 1 , 121
Subscapularis, 58, 93
Subtalar joint, 337
accessory movements, 350, 351,
354
forefoot-heel alignment, 348
joint tests, 344, 346
knee problems, 3 1 8
leg-heel alignment, 348
Su Icus sign, 195
Superoinferior glide, sacroiliac, 290
Supine to sit test, 270, 306, 326
Suprapatellar plica test, 327, 327
Suprascapular nerve, 64, 91
Supraspinatus, trigger pOints, 93
Supraspinatus tendon, impingement,
202, 202
Sural nerve, palpation, 96
Sustain<..>ci movement tests, 52
Sustained natural apophyseal glides
(SNAGs)
cervicothoracic spine, 166,
166
headaches, 145-6, 145-6
lumbar spine, 273, 274
temporomandibular jOint, 102-3
thoracic spine, 184, 185
upper cervical spine, 1 45-6,
145-6
Swan-neck deformity, 236, 236
Sway back posture, 39, 41, 1 76,
263
Sweater finger sign test, 243
Swelling see Oedema
Symptom behaviour Sf'(! Behaviour of
symptoms
Symptom mapping see Body charts
Symptom relationships see
Relationship of symptoms
T
Talar lilt, 3-14, 344
Talocalcaneal joint, 52, 346
Talocrural joint, 337
accessory movements, 350-1, 354
joint tests, 344, 346
Talus
accessory movement of ankle, 355-6
anterior draw Sign, 343-4, 344
knt>e problems, 318
talar tilt, 344, 344
set' a/so Talocalcaneal joint;
Talocrural jOint
Tarsometatars.ll joints, 337, 351, 352,
354
Tarsus, joint tests, 346
Temporomandibular joint (TMJ),
1 1 3-14
completion of examination. 127
physical examination, 52, 55, 92,
1 17-24, 126
possible causes of problems, 1 13
subjective examination, 16, 1 14-17,
125
Tendinitis
bicipital, 64, 202
Linburg's sign, 243
patellar, 317
Tcndocalcaneus, Thompson's test, 347
Tendon reflexes see Reflex testing
Tennis elbow, 222, 223, 224, 227
Tenodesis effect, 242
Tensor fasciae latae, length, 62-3
Testicular tumours, 32-3
Thompson's test, tendocalcaneus
rupture, 3-17
Thoracic nerve roots, myotome testing,
78-9
Thoracic outlet syndrome tests, 203-4,
203-4
Thoracic spine, 172
completion of cxamination, 184-8
definition, 172
derangemcnt syndromes, 179,179
dysfunction syndrome, 179
physical examination, 52, 55, 121,
t75-84, 187
possible causes of problems, 171-2
subjective examination, 16, 172-5,
186
and tcmporomandibular joint, 121
SLoe also Cervicothoracic spine
Thrombosis, deep vein, 348
Through-range resistance, xiv
Thumb
accessory movements, 2-16, 248-9,
250
capsular patterns, 52, 241
clearing tt-'Sts, 55
common deformities, 236
jOint integrity, 237
muscle tests, 242-3
neurological tests, 244
overpressures, 238, 240, 241
trigger points, 93
Tibia
anteroposterior patellar tilt, 329
Apley compression/distraction lest,
326-7
knee joint integrity tests, 320, 320,
321
libiofemoral accessory movements,
332, 333, 333
tibiofibular accessory movements,
350, 35􀄗, 355
torsion tests, 348, 349
Tibial nerve, n,91
Tibialis anterior, 59, 95
Tibialis posterior, length, 63
Tibiofemoral joint, 313
accessory movements, 330, 332, 333
differentiation tests, 323
mobilizations with movement, 333,
333
Tibiofibular joints, inferior, 337
accessory movements, 350, 354, 355,
356
capsular patterns, 52, 346
Tibiofibular joints. superior, 313
accessory movements, 330, 332, 333
capsular patterns, 52
mobilizations with movement, 333,
333
Tillers Sign, 162,203.223,244
Toes
capsular patterns, 52, 346
observation of posture, 342
possible causes of problems, 338
Tongue thrust, temporomandibular
joint, 121
Torsion dysfunction, sacroiliac, 292
Touch tests, 65
Transversus abdominis, 56
Trapezius
function, 56
imbalance, 201, 201
length tests, 60
strength tests, 58
trigger points, 92
Treatment techniques, 362
Trendelenburg's sign, 44, 1 76, 263, 285,
302
Triceps, 73, 81
Trigger pOints, 90--6, 92-5
Twenty-four-hour behaviour of
symptoms, 17-18
cervicothoracic spine, 153
foot, 340
hip region, 299
knee region, 315
lumbar spine, 260
pelvis, 281
shoulder region, 191
temporomandibular joint, 115
thoracic spine, 173-4
upper cervical spine, 132
u
Ulcers, peptic, 31
Ulnar artery, Allen test, 245
Ulnar, Calles fractures, 48
see also Humeroulnar joint;
Radioulnar joints
Ulnar nerve, 64, 74, 75
palSY, 236, 244
Tinel's Sign, 223
upper limb tension tests, 85, 88,
89
Upper cervical spine
cutaneous nerve supply, 66
definition, 129
derma tomes, 66
physical examination, 1 34-46,148
possible causes of problems, 129-30
subjective examination, 130-4, 147
and temporomandibular joint,
119-20, 121,121
Upper cervical traction, 1 45-6, 146
Upper limb
aggravating factors, 1 6
case scenario, 23, 25, 31
cutaneous nerve supply, 68
derma tomes, 68
mobilizations with movement, 251,
251
musculocutaneous nerves, 72-7
palpable nerves, 91
sclerotomes, 71
trigger points, 93
see urso Elbow; Hand; Shoulder
region; Wrist
Upper limb tension tests (UL TIs),79,
85,86-7,88,88
cervicothoracic spine, 162
elbow region, 223
hand,244
shoulder region, 203
temporomandibular joint, 122
thoracic spine, 181
upper cervical spine, 141
wrist, 244
Upper motor neurone lesions, 122
Upper (shoulder) crossed syndrome,
38,38, 135, 156, 176, 194
INDEX 3n
Upslip, sacroiliac jOint dysfunction,
291
v
Vascular tests, 36
ankle problems, 348
cervicothoracic spine, 162-3
foot problems, 348
hand,245
hip problems, 306
knee problems, 326
lumbar spine, 270
pelvic problems, 288
shoulder region, 203-4
temporomandibular joint, 122
upper cervical spine, 141-2, 142
wrist, 245
Vastus intermedius, 59
Vastus lateralis, 59
knee problems, 324, 329
Vastus medialis
function, 56
knee problems, 324, 329
strength tests, 59
trigger points, 95
Venous thrombosis, 348
Vertebral artery test, 122, 142, 142
Vertebrobasilar insufficiency (VB!), 21,
130,152
risk factors, 133
vertebral artery test, 142, 142,
203
Viscera, referred pain, 10, 11-12, 32
w
Watson's scaphoid shift test, 237
Weight loss, 20
Wrist
completion of examination, 254
definition, 23 1
physical examination, 48, 52, 55,
235-51 , 253
possible causes of problems, 231-2
subjective examination, 16, 232-5,
252
x
X-rays, 20
bone metastases, 33
hand,234
wrist, 234