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[[File:Patricks-test.jpg|thumb|408x408px|<ref>https://centenoschultz.com/patricks-test-evaluation-of-sacroillac-joint-dysfunction/</ref>]]
== Definition/Description  ==
== Definition/Description  ==
[[File:FABERs test.jpg|thumb|464x464px|FABERs test.  Attribution to "Dr. Donald Corenman, MD - Colroado Spine Doctor".]]


The (Patrick’s) FABER Test stands for Flexion, Abduction and External Rotation. These three motions combined result in a clinical pain provocation test to find pathologies at the hip, lumbar and sacroiliac region. <ref name="martin et al">Martin RL, Sekiya JK. The interrater reliability of 4 clinical tests used to assess individuals with musculoskeletal hip pain. J Orthop Sports Phys Ther. 2008 Feb;38(2):71-7. Epub 2007 Sep 21.</ref><br>  
The FABER (Patrick’s) Test stands for: Flexion, Abduction and External Rotation. These three movements combined result in a clinical pain provocation test to assist in diagnosis of pathologies at the hip, lumbar and sacroiliac region. <ref name="martin et al">Martin RL, Sekiya JK. [https://www.ncbi.nlm.nih.gov/pubmed/18560194 The interrater reliability of 4 clinical tests used to assess individuals with musculoskeletal hip pain]. J Orthop Sports Phys Ther. 2008 Feb;38(2):71-7. Epub 2007 Sep 21.</ref><br>  


== Clinically Relevant Anatomy  ==
== Clinically Relevant Anatomy  ==


A (basic) knowledge of the hip, lumbar spine and sacroiliac region anatomy is recommended. The hip joint is a ball en socket joint formed by the connection of the head (ball) of the femur (thigh bone) to the hip bone in the hip socket. The hip (also called iliofemoral) joints are deep in the pelvis, located on each side of the groin area. The top part of the ischium, the top part of the pubis, and the lower part of the ilium come together is an area called the acetabulum (hip socket). The head of the femur fits into this socket to form the hip joint, which is enclosed by thick cartilage called the joint capsule and held together by ligaments and muscles. <ref>http://www.suite101.com/content/structure-and-function-of-the-hip-joints-a190399</ref><br>More information on the hip or human anatomy you can find by clicking on the anatomy link under references. <ref>hip anatomy link see https://catalog.ama-assn.org/MEDIA/ProductCatalog/m890153/%20Function%20%20Anatomy%20Ch%207.pdf fckLRorfckLRhuman anatomy http://www.innerbody.com/htm/body.html</ref><br>  
Hip articulation is true diarthroidal ball and-socket style joint
 
Formed from the head of the femur as it articulates with the acetabulum of the pelvis. This joint serves as the main connection between the lower extremity and the trunk, and typically works in a closed kinematic chain.<ref>Hip Anatomy. (2017, June 6). ''Physiopedia,'' . Retrieved 10:17, December 14, 2017 from https://www.physio-pedia.com/index.php?title=Hip_Anatomy&oldid=172875.</ref> Thus is designed for stability and weight-bearing – rather than a large range of movement. 
 
Movements available at the hip joint are flexion, extension, abduction, adduction, internal rotation and external rotation. The ligaments of the hip joint act to increase stability. They can be divided into two groups – intracapsular and extracapsular.
[[File:Hip joint (anterolateral view) - Kenhub.png|alt=Hip joint (highlighted in green) - anterolateral view|right|frameless|500x500px|Hip joint (highlighted in green) - anterolateral view]]
For more detailed information on the anatomy of the [[Hip Anatomy|hip]], [[Lumbar|lumbar spine]] and [[Sacroiliac Joint]].  
 
Image: Hip joint (highlighted in green) - anterolateral view <ref > Hip joint (highlighted in green) - anterolateral view image -  © Kenhub https://www.kenhub.com/en/library/anatomy/hip-joint</ref>  


== Purpose  ==
== Purpose  ==


This test is used to identify the presence of hip pathology by attempting to reproduce pain in the hip, lumbar spine and sacroiliac region. The FABER test is a passive screening tool for musculoskeletal pathologies in the middle region of the human body, like hip, lumbar, or SI joint dysfunction, or an iliopsoas spasm.<ref>Dutton M. Orthopaedic: Examination, evaluation, and intervention. 2nd ed. New York: The McGraw-Hill Companies, Inc; 2008.</ref><ref name="martin et al" />
The FABER test is used to identify the presence of hip pathology by attempting to reproduce pain in the hip, lumbar spine or sacroiliac region. The test is a passive screening tool for musculoskeletal pathologies, such as hip, lumbar spine, or sacroiliac joint dysfunction, or an iliopsoas spasm.<ref>Dutton M. Orthopaedic: Examination, evaluation, and intervention. 2nd ed. New York: The McGraw-Hill Companies, Inc; 2008.</ref><ref name="martin et al" />


When the FABER test is clustered, it can provide highly useful information in identifying those suffering from sacroiliac joint dysfunction. This tests the sacroiliac joint, because as the horizontal abduction force goes through the femur, the tensioned soft tissues transfer the forces to the sacroiliac joint. Hence, this test can indicate pathology located in the hip or sacroiliac joint. The test also assesses the hip, due to forces being transferred through the joint. The position of flexion, abduction, and external rotation, when combined with overpressure, stresses the femoral-acetabular joint and produces pain, if irritated.<ref>Broadhurst N, Bond M. "Pain provocation tests for the assessment of sacroiliac joint dysfunction." ''J Spinal Disorders'' 1998; 11: 341-345.</ref><ref>Phillippon et al, AJSM, 2007.</ref>
The test also assesses the hip, due to forces being transferred through the joint. The position of flexion, abduction, and external rotation, when combined with overpressure, stresses the femoral-acetabular joint and produces pain, if irritated.<ref>Broadhurst NA, Bond MJ. [https://www.ncbi.nlm.nih.gov/pubmed/9726305 Pain provocation tests for the assessment of sacroiliac joint dysfunction]. Journal of Spinal Disorders. 1998 Aug;11(4):341-5.</ref><ref>Philippon MJ, Stubbs AJ, Schenker ML, Maxwell RB, Ganz R, Leunig M. [https://www.ncbi.nlm.nih.gov/pubmed/17420508 Arthroscopic management of femoroacetabular impingement: osteoplasty technique and literature review]. The American journal of sports medicine. 2007 Sep;35(9):1571-80.</ref>


<br>  
In conjunction with other tests such as range of movement and [[Hip Quadrant Test|hip quadrant test]], FABERs can be a useful tool to guide practitioners when to refer for further imaging in patients with persistent hip or groin pain.<ref name=":0" />
 
When the FABER test is clustered, it can provide highly useful information in identifying those suffering from sacroiliac joint dysfunction. This tests the sacroiliac joint, as the horizontal abduction force goes through the femur, the soft tissues under tension transfer the forces to the sacroiliac joint. Hence, this test can indicate pathology located in the hip or sacroiliac joint. <br>  


== Technique  ==
== Technique  ==


The patient is positioned in supine. The leg is placed in a figure-4 position (hip flexed and abducted with the lateral ankle (malleolus) resting on the contralateral thigh just above (/proximal to) the knee).&nbsp;<ref name="flynn et al">Flynn T, Cleland J, Whitman J. User's guide to the musculoskeletal examination: Fundamentals for the evidence-based clinician. Buckner, Kentucky: Evidence in Motion; 2008</ref> While stabilizing the opposite side of the pelvis at the anterior superior iliac spine, an external rotation, abduction and posterior directed force is then slightly applied to the ipsilateral knee until the end range of motion (ROM) is achieved. Further a couple of small-amplitude oscillations can be applied to check for pain provocation at the end range of motion. <ref name="troelsen et al">Troelsen A, Mechlenburg I, Gelineck J, Bolvig L, Jacobsen S, Søballe K. What is the role of clinical tests and ultrasound in acetabular labral tear diagnostics? Acta Orthop. 2009 Jun;80(3):314-8.</ref> A positive test is one that reproduces the patient's pain or limits their ROM. <ref name="flynn et al" />  
The patient is positioned in supine. The leg is placed in a figure-4 position (hip flexed and abducted with the lateral ankle resting on the contralateral thigh proximal to the knee.&nbsp;<ref name="flynn et al">Flynn T, Cleland J, Whitman J. User's guide to the musculoskeletal examination: Fundamentals for the evidence-based clinician. Buckner, Kentucky: Evidence in Motion; 2008</ref> While stabilizing the opposite side of the pelvis at the anterior superior iliac spine, an external rotation, abduction and posterior force is then lightly applied to the ipsilateral knee until the end range of motion is achieved. A further few small-amplitude oscillations can be applied to check for pain provocation at the end range of motion. <ref name="troelsen et al">Troelsen A, Mechlenburg I, Gelineck J, Bolvig L, Jacobsen S, Søballe K. [https://www.ncbi.nlm.nih.gov/pubmed/19421915 What is the role of clinical tests and ultrasound in acetabular labral tear diagnostics?] Acta Orthop. 2009 Jun;80(3):314-8.</ref> A positive test is one that reproduces the patient's pain or limits their range of movement. <ref name="flynn et al" />


{{#ev:youtube|89Qiht82zmg}}<ref>Physiotutors. Patrick's / Faber / Figure Four Test. Available from: https://www.youtube.com/watch?v=89Qiht82zmg </ref>
{{#ev:youtube|watch?v=nFza4MJv2Uo|300}}<ref>Faber Test | Patrick Faber's Test for Hip Pain Available from:https://www.youtube.com/watch?v=nFza4MJv2Uo </ref>  


== Interpretation  ==
== Interpretation  ==
The following may help in guiding your clinical diagnosis;
The following findings of a positive FABER test may help to guide your clinical diagnosis;
# SI Joint Pain on external hip rotation
# Sarcoiliac Joint Pain on external hip rotation
#* [[Sacroiliac Joint Dysfunction]]
#* Sacroiliac Joint Dysfunction
#* [[Sacroiliitis]]
#* [[Sacroiliitis]]
# Groin Pain on external hip rotation
# Groin Pain on external hip rotation
Line 37: Line 46:
#* Intraarticular Hip Disorder
#* Intraarticular Hip Disorder
#*# Hip Impingement ([[Femoroacetabular Impingement|femoral acetabular impingement]])
#*# Hip Impingement ([[Femoroacetabular Impingement|femoral acetabular impingement]])
#*# [[Hip Labral Tears|Hip Labral Tear]]
#*# [[Hip Labral Tears|Hip Labral Tear]]<ref name="troelsen et al" />
#*# Hip loose bodies
#*# Hip loose bodies
#*# Hip chondral lesion
#*# Hip chondral lesion
#*# [[Hip Osteoarthritis]]
#*# [[Hip Osteoarthritis]]<ref name=":1" />
# Posterior Hip Pain on external hip rotation
# Posterior Hip Pain on external hip rotation
#* Posterior Hip Impingement
#* Posterior Hip Impingement
Line 46: Line 55:
== Evidence  ==
== Evidence  ==


*'''Reliability:''' FABER measured with a ruler, normalized FABER ROM, and inclinometry all resulted in excellent intra-rater reliability, with the highest ICC being demonstrated for inclinometry (ICC 0.86, 0.86, and 0.91).<ref>Bagwell JJ, Bauer L, Gradoz M, Grindstaff TL. THE RELIABILITY OF FABER TEST HIP RANGE OF MOTION MEASUREMENTS. International journal of sports physical therapy. 2016 Dec;11(7):1101.</ref> The use of an inclinometer may increase reliability when performed by an experienced clinician in comparison with height measutements.  
*'''Reliability:''' FABER measured with a ruler, normalized FABER range of movement, and inclinometry all resulted in excellent intra-rater reliability, with the highest ICC being demonstrated for inclinometry (ICC 0.86, 0.86, and 0.91).<ref>Bagwell JJ, Bauer L, Gradoz M, Grindstaff TL. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5159634/ The reliability of FABER test hip range of motion measurement]s. International journal of sports physical therapy. 2016 Dec;11(7):1101.</ref> The use of an inclinometer may increase reliability when performed by an experienced clinician in comparison with height measutements.  
*'''Sensitivity''' for identification of hip pathology identified with arthroscopy: 0.89<ref>B, McCroy P, Brukner P, et al. Hip joint pathology: Clinical presentation and correlation between magnetic resonance arthrography, ultrasound, and arthroscopic findings in 25 consecutive cases. Clin J Sports Med. 2003;(13):152-156</ref>  
*'''Sensitivity''' for identification of hip pathology identified with arthroscopy: 0.89<ref name=":0">B, McCroy P, Brukner P, et al. [https://www.ncbi.nlm.nih.gov/pubmed/12792209 Hip joint pathology: Clinical presentation and correlation between magnetic resonance arthrography, ultrasound, and arthroscopic findings in 25 consecutive cases]. Clin J Sports Med. 2003;(13):152-156</ref>  
*Correlation of positive test with OA on radiographs: r = 0.54<ref>Theiler R, Stucki G, Schotz R, Hofer H, Seifert B. Parametric and non-parametric measures in the assessment of knee and hip osteoarthritis: interobserver reliability and correlation with radiology. Osteoarthritis Cartilage. 1996:35-42.</ref>  
*Correlation of positive test with OA on radiographs: r = 0.54<ref name=":1">Theiler R, Stucki G, Schotz R, Hofer H, Seifert B. [https://www.ncbi.nlm.nih.gov/pubmed/8731394 Parametric and non-parametric measures in the assessment of knee and hip osteoarthritis: interobserver reliability and correlation with radiology.] Osteoarthritis Cartilage. 1996:35-42.</ref>  
*Kappa (95% Confidence interval): 0.63 (0.43-0.83), Kappa Maximum: 0.83, Percent agreement: 84%, Prevalence: 0.37, Bias: 0.07<ref name="martin et al" />  
*Kappa (95% Confidence interval): 0.63 (0.43-0.83), Kappa Maximum: 0.83, Percent agreement: 84%, Prevalence: 0.37, Bias: 0.07<ref name="martin et al" />  
*Diagnostic value of FABER test compared to MR arthrogra¬phy in labral tear diagnostics: sensitivety: 41%, specificity: 100%, positive predictive value: 100%, negative predictive value: 9%<ref name="troelsen et al" />   
*Diagnostic value of FABER test compared to MR arthrogra¬phy in labral tear diagnostics: sensitivety: 41%, specificity: 100%, positive predictive value: 100%, negative predictive value: 9%<ref name="troelsen et al" />   
*The validity and reliability of the FABER test is very contradictory, some say it is an invalid and unreliable test<ref>Cattley P, Winyard J, Trevaskis J, Eaton S. Validity and reliability of clinical tests for the sacroiliac joint. A review of literature. Australas Chiropr Osteopathy. 2002 Nov;10(2):73-80.</ref> , while others are staying in disagreement about the outcome.<ref name="vleeming et al">Vleeming A, Albert HB, Ostgaard HC, Sturesson B, Stuge B.European guidelines for the diagnosis and treatment of pelvic girdle pain. Eur Spine J. 2008 Jun;17(6):794-819. Epub 2008 Feb 8.</ref><br><br>
*The '''validity''' and '''reliability''' of the FABER test is very contradictory, some say it is an invalid and unreliable test<ref>Cattley P, Winyard J, Trevaskis J, Eaton S. [https://www.ncbi.nlm.nih.gov/pubmed/17987177 Validity and reliability of clinical tests for the sacroiliac joint. A review of literature. Australas Chiropr Osteopathy. 2002] Nov;10(2):73-80.</ref> , while others disagree about the outcome and feel physical diagnostic tests do not have enough quality evidence to support the use of them for diagnosis purposes.<ref name=":2">Tijssen M, van Cingel R, Willemsen L, de Visser E. [https://www.sciencedirect.com/science/article/pii/S0749806311013661 Diagnostics of femoroacetabular impingement and labral pathology of the hip: a systematic review of the accuracy and validity of physical tests]. Arthroscopy: The Journal of Arthroscopic & Related Surgery. 2012 Jun 1;28(6):860-71.</ref> <ref name="vleeming et al">Vleeming A, Albert HB, Ostgaard HC, Sturesson B, Stuge B.[https://link.springer.com/article/10.1007/s00586-008-0602-4 European guidelines for the diagnosis and treatment of pelvic girdle pain]. Eur Spine J. 2008 Jun;17(6):794-819. Epub 2008 Feb 8.</ref>   
 
== Resources ==


A1: Vleeming A, Albert HB, Ostgaard HC, Sturesson B, Stuge B.European guidelines for the diagnosis and treatment of pelvic girdle pain. Eur Spine J. 2008 Jun;17(6):794-819. Epub 2008 Feb 8.<br><br> A1: Cattley P, Winyard J, Trevaskis J, Eaton S. Validity and reliability of clinical tests for the sacroiliac joint. A review of the literature. Australas Chiropr Osteopathy. 2002 Nov;10(2):73-80.<br> <br>B: Troelsen A, Mechlenburg I, Gelineck J, Bolvig L, Jacobsen S, Søballe K. What is the role of clinical tests and ultrasound in acetabular labral tear diagnostics? Acta Orthop. 2009 Jun;80(3):314-8.<br> <br>A2: Martin RL, Sekiya JK. The interrater reliability of 4 clinical tests used to assess individuals with musculoskeletal hip pain. J Orthop Sports Phys Ther. 2008 Feb;38(2):71-7. Epub 2007 Sep 21.<br>
== Clinical Relevance ==
The FABER test can be used in assessment of the hip, sacroiliac joint or lumbar spine as a pain provocation test alongside quality subject assessment and basic objective assessment.  


== Clinical Bottom Line  ==
The FABER test is quick to perform and can give a measure of range of movement as well as being a pain provocation test, although it may not give a clear diagnosis it may assist the user in clinically reasoning which further tests or exercises to perform.


<br>Although results of a study support the use of Patrick's test as being a reliable measure of general hip motion when used by an inexperienced tester who participated in a 15-minute instructional session on how to perform Patrick's test (The results revealed that Patrick's test demonstrated high test-retest reliability (intraclass correlation coefficient = 0.93).) <ref>Ross MD, Nordeen MH, Barido M. Test-retest reliability of Patrick's hip range of motion test in healthy college-aged men. J strength &amp; cond research 17 (1) 156-161  Feb 2003</ref><br><br>
The evidence supporting this test is varied and more studies are required to fully assess the value of this and other hip pathology tests<ref>Reiman MP, Goode AP, Hegedus EJ, Cook CE, Wright AA. [https://bjsm.bmj.com/content/47/14/893.short Diagnostic accuracy of clinical tests of the hip: a systematic review with meta-analysis]. Br J Sports Med. 2013 Sep 1;47(14):893-902.</ref>. Although more evidence is becoming apparent that physical tests are less reliable and subject to user error. <ref name=":2" />


== References  ==
== References  ==
Line 65: Line 73:
<references /> <br>  
<references /> <br>  


[[Category:Sacroiliac_Examination]] [[Category:Hip]] [[Category:Lumbar Spine]] [[Category:Special_Tests]] [[Category:Musculoskeletal/Orthopaedics]] [[Category:Vrije_Universiteit_Brussel_Project]]
[[Category:Sacroiliac_Examination]]  
[[Category:Hip]] [[Category:Hip - Assessment and Examination]]
[[Category:Lumbar Spine]]  
[[Category:Lumbar Spine - Assessment and Examination]]
[[Category:Pelvis]] [[Category:Pelvis - Assessment and Examination]]
[[Category:Special_Tests]]  
[[Category:Musculoskeletal/Orthopaedics]]  
[[Category:Vrije_Universiteit_Brussel_Project]]
[[Category:Sports Medicine]]
[[Category:Athlete Assessment]]
[[Category:Assessment]]

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Definition/Description[edit | edit source]

FABERs test.  Attribution to "Dr. Donald Corenman, MD - Colroado Spine Doctor".

The FABER (Patrick’s) Test stands for: Flexion, Abduction and External Rotation. These three movements combined result in a clinical pain provocation test to assist in diagnosis of pathologies at the hip, lumbar and sacroiliac region. [1]

Clinically Relevant Anatomy[edit | edit source]

Hip articulation is true diarthroidal ball and-socket style joint.

Formed from the head of the femur as it articulates with the acetabulum of the pelvis. This joint serves as the main connection between the lower extremity and the trunk, and typically works in a closed kinematic chain.[2] Thus is designed for stability and weight-bearing – rather than a large range of movement.

Movements available at the hip joint are flexion, extension, abduction, adduction, internal rotation and external rotation. The ligaments of the hip joint act to increase stability. They can be divided into two groups – intracapsular and extracapsular.

Hip joint (highlighted in green) - anterolateral view

For more detailed information on the anatomy of the hip, lumbar spine and Sacroiliac Joint.

Image: Hip joint (highlighted in green) - anterolateral view [3]

Purpose[edit | edit source]

The FABER test is used to identify the presence of hip pathology by attempting to reproduce pain in the hip, lumbar spine or sacroiliac region. The test is a passive screening tool for musculoskeletal pathologies, such as hip, lumbar spine, or sacroiliac joint dysfunction, or an iliopsoas spasm.[4][1]

The test also assesses the hip, due to forces being transferred through the joint. The position of flexion, abduction, and external rotation, when combined with overpressure, stresses the femoral-acetabular joint and produces pain, if irritated.[5][6]

In conjunction with other tests such as range of movement and hip quadrant test, FABERs can be a useful tool to guide practitioners when to refer for further imaging in patients with persistent hip or groin pain.[7]

When the FABER test is clustered, it can provide highly useful information in identifying those suffering from sacroiliac joint dysfunction. This tests the sacroiliac joint, as the horizontal abduction force goes through the femur, the soft tissues under tension transfer the forces to the sacroiliac joint. Hence, this test can indicate pathology located in the hip or sacroiliac joint.

Technique[edit | edit source]

The patient is positioned in supine. The leg is placed in a figure-4 position (hip flexed and abducted with the lateral ankle resting on the contralateral thigh proximal to the knee. [8] While stabilizing the opposite side of the pelvis at the anterior superior iliac spine, an external rotation, abduction and posterior force is then lightly applied to the ipsilateral knee until the end range of motion is achieved. A further few small-amplitude oscillations can be applied to check for pain provocation at the end range of motion. [9] A positive test is one that reproduces the patient's pain or limits their range of movement. [8]

[10]

Interpretation[edit | edit source]

The following findings of a positive FABER test may help to guide your clinical diagnosis;

  1. Sarcoiliac Joint Pain on external hip rotation
  2. Groin Pain on external hip rotation
  3. Posterior Hip Pain on external hip rotation
    • Posterior Hip Impingement

Evidence[edit | edit source]

  • Reliability: FABER measured with a ruler, normalized FABER range of movement, and inclinometry all resulted in excellent intra-rater reliability, with the highest ICC being demonstrated for inclinometry (ICC 0.86, 0.86, and 0.91).[12] The use of an inclinometer may increase reliability when performed by an experienced clinician in comparison with height measutements.
  • Sensitivity for identification of hip pathology identified with arthroscopy: 0.89[7]
  • Correlation of positive test with OA on radiographs: r = 0.54[11]
  • Kappa (95% Confidence interval): 0.63 (0.43-0.83), Kappa Maximum: 0.83, Percent agreement: 84%, Prevalence: 0.37, Bias: 0.07[1]
  • Diagnostic value of FABER test compared to MR arthrogra¬phy in labral tear diagnostics: sensitivety: 41%, specificity: 100%, positive predictive value: 100%, negative predictive value: 9%[9]
  • The validity and reliability of the FABER test is very contradictory, some say it is an invalid and unreliable test[13] , while others disagree about the outcome and feel physical diagnostic tests do not have enough quality evidence to support the use of them for diagnosis purposes.[14] [15]

Clinical Relevance[edit | edit source]

The FABER test can be used in assessment of the hip, sacroiliac joint or lumbar spine as a pain provocation test alongside quality subject assessment and basic objective assessment.

The FABER test is quick to perform and can give a measure of range of movement as well as being a pain provocation test, although it may not give a clear diagnosis it may assist the user in clinically reasoning which further tests or exercises to perform.

The evidence supporting this test is varied and more studies are required to fully assess the value of this and other hip pathology tests[16]. Although more evidence is becoming apparent that physical tests are less reliable and subject to user error. [14]

References[edit | edit source]

  1. 1.0 1.1 1.2 Martin RL, Sekiya JK. The interrater reliability of 4 clinical tests used to assess individuals with musculoskeletal hip pain. J Orthop Sports Phys Ther. 2008 Feb;38(2):71-7. Epub 2007 Sep 21.
  2. Hip Anatomy. (2017, June 6). Physiopedia, . Retrieved 10:17, December 14, 2017 from https://www.physio-pedia.com/index.php?title=Hip_Anatomy&oldid=172875.
  3. Hip joint (highlighted in green) - anterolateral view image - © Kenhub https://www.kenhub.com/en/library/anatomy/hip-joint
  4. Dutton M. Orthopaedic: Examination, evaluation, and intervention. 2nd ed. New York: The McGraw-Hill Companies, Inc; 2008.
  5. Broadhurst NA, Bond MJ. Pain provocation tests for the assessment of sacroiliac joint dysfunction. Journal of Spinal Disorders. 1998 Aug;11(4):341-5.
  6. Philippon MJ, Stubbs AJ, Schenker ML, Maxwell RB, Ganz R, Leunig M. Arthroscopic management of femoroacetabular impingement: osteoplasty technique and literature review. The American journal of sports medicine. 2007 Sep;35(9):1571-80.
  7. 7.0 7.1 B, McCroy P, Brukner P, et al. Hip joint pathology: Clinical presentation and correlation between magnetic resonance arthrography, ultrasound, and arthroscopic findings in 25 consecutive cases. Clin J Sports Med. 2003;(13):152-156
  8. 8.0 8.1 Flynn T, Cleland J, Whitman J. User's guide to the musculoskeletal examination: Fundamentals for the evidence-based clinician. Buckner, Kentucky: Evidence in Motion; 2008
  9. 9.0 9.1 9.2 Troelsen A, Mechlenburg I, Gelineck J, Bolvig L, Jacobsen S, Søballe K. What is the role of clinical tests and ultrasound in acetabular labral tear diagnostics? Acta Orthop. 2009 Jun;80(3):314-8.
  10. Faber Test | Patrick Faber's Test for Hip Pain Available from:https://www.youtube.com/watch?v=nFza4MJv2Uo
  11. 11.0 11.1 Theiler R, Stucki G, Schotz R, Hofer H, Seifert B. Parametric and non-parametric measures in the assessment of knee and hip osteoarthritis: interobserver reliability and correlation with radiology. Osteoarthritis Cartilage. 1996:35-42.
  12. Bagwell JJ, Bauer L, Gradoz M, Grindstaff TL. The reliability of FABER test hip range of motion measurements. International journal of sports physical therapy. 2016 Dec;11(7):1101.
  13. Cattley P, Winyard J, Trevaskis J, Eaton S. Validity and reliability of clinical tests for the sacroiliac joint. A review of literature. Australas Chiropr Osteopathy. 2002 Nov;10(2):73-80.
  14. 14.0 14.1 Tijssen M, van Cingel R, Willemsen L, de Visser E. Diagnostics of femoroacetabular impingement and labral pathology of the hip: a systematic review of the accuracy and validity of physical tests. Arthroscopy: The Journal of Arthroscopic & Related Surgery. 2012 Jun 1;28(6):860-71.
  15. Vleeming A, Albert HB, Ostgaard HC, Sturesson B, Stuge B.European guidelines for the diagnosis and treatment of pelvic girdle pain. Eur Spine J. 2008 Jun;17(6):794-819. Epub 2008 Feb 8.
  16. Reiman MP, Goode AP, Hegedus EJ, Cook CE, Wright AA. Diagnostic accuracy of clinical tests of the hip: a systematic review with meta-analysis. Br J Sports Med. 2013 Sep 1;47(14):893-902.


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