Gluteal Tendinopathy: Difference between revisions

	The four facets of a right greater trochanter. The gluteus medius inserts at the superoposterior and lateral facets; gluteus minimus inserts at the anterior facet.
Gluteal Tendinopathy
Epidemiology	Women aged over 40
Pathophysiology	Degenerative tendinopathy as a result of excessive compressive and tensile loads.
Clinical Features	Chronic lateral hip pain that is exacerbated by activity and side-lying. Greater trochanteric tenderness and pain provocation in tests assessing the use of the hip abductors.
Diagnosis	Clinical diagnosis with no accepted criteria
DDX	Hip osteoarthritis, Lumbar spine somatic referred pain.
Treatment	Load management, avoidance of compressive forces, graded exercise programme, injections, surgery.
Prognosis	Usually self-limiting

Revision as of 19:43, 11 April 2022

Written by: Emily Grant; additional contribution by: Dr Jeremy Steinberg – created: 28 June 2020; last modified: 23 April 2022

Gluteal tendinopathy, referring to tendinopathy of gluteus medius and/or gluteus minimus tendons, is the most common cause of lateral hip pain and can lead to severe disability. Load and exercise management is the primary treatment.

Terminology

Greater trochanteric pain syndrome (GTPS) is an umbrella term encompassing different musculoskeletal entities that may contribute to chronic lateral hip pain/

Any bursal distension (sub-gluteal minimus/medius) is invariably secondary to or co-exists with an underlying gluteal tendinopathy. The tendinopathy is a non-inflammatory condition. Therefore the term "trochanteric bursitis" (and the related terms "trochanteritis") is generally regarded as a misnomer.^[1]

Anatomy

The peri-trochanteric space is the interval located between the greater trochanter and the gluteus maximus, tensor fascia lata, and iliotibial band. The peri-trochanteric space contains the hip abductors: gluteus medius, gluteus minimus, and tensor fascia lata.

In the "rotator cuff of the hip" there are six external rotators, three internal rotators, two trochanteric abductors, and three iliotibial band tensioners.

The external rotators are piriformis, gemellus superior and inferior, obturator internus, obturator externus, and quadratus femoris.
The internal rotators are gluteus minimus, gluteus medius, and tensor fascia lata
The trochanteric abductors are gluteus minimus and gluteus medius.
The iliotibial band tensioners are tensor fascia lata, gluteus maximus, and vastus lateralis.

The greater trochanter has four facets (anterior, lateral, posterior, and superoposteiror) with three tendon insertions.

Gluteus medius is the most important muscle in gluteal tendinopathy. It is a large fan-shaped muscle that has its origin at the outer edge of the iliac crest running from the anterior superior iliac spine (ASIS) to the posterior superior iliac spine (PSIS). It has three equal portions: anterior, middle, and posterior. The anterior and middle portions with its vertically oriented muscle fibres assist with initiating hip abduction. The posterior portion with its horizontally oriented fibres is active in heel strike to full stance during gait to stabilise the hip. It inserts at the superoposterior and lateral facets of the greater trochanter.

Gluteus minimus has its orrigin from the gluteal surface of the ilium. It inserts onto the lateral facet and onto the hip capsule on the anterior facet, called the long head and capsular head respectively. There is a "bald spot" between the capsular attachment and the lateral facet.

There are three bursa in the lateral hip. The subgluteus medius bursa overlies the superior part of the lateral facet. The gluteus minimus bursa lies over the lateral facet. The subgluteus maximus mursa lies between the gluteus maximus and iliotibial band.

gluteus medius shown on the right
gluteus minimus shown on the right
lateral hip with foot prints of gluteus medius, gluteus minimus, and vastus lateralis

Aetiology and Pathophysiology

Historically lateral hip pain was thought to be exclusively due to trochanteric bursitis. However it is now understood that tendon tears are the source of pain, and the presence of any bursitis is merely an epiphenomenon.

A healthy tendon has a homeostatic balance between anabolic and catabolic processes. Gluteal tendinopathy is caused by disturbance in this balance following a combination of excessive compression and high tensile loads. The tendon is particularly susceptible when there is a rapid increase in intensity of load without giving the tendon time to adapt.^[2]^[3] This could be due to a traumatic event (e.g. direct blow) or a frequent and repeated exposure to a load (e.g. jumping athlete).^[3]^[2]

Three continuous stages of disease have been described: normal to reactive tendinopathy to tendon dysrepair to degenerative tendinopathy.^[2] Tendon tears can be intrasubstance, partial, or complete. This is explained in more detail in Tendinopathy. It is difficult to manage because pain is not closely connected to progression of pathology.^[3]

Epidemiology and Risk Factors

Gluteal tendinopathy is a common condition with a prevalence that is highest in women in their fourth to sixth decades.^[2] One study reporting 23.5% of females and 8.5% of men between 50-79 years being affected in community-based population.^[4] A rapid increase in intensity and/or frequency of on gluteal tendons puts individuals at risk.^[3] Both athletes and sedentary individuals are affected.^[2]

Clinical Features

History

The patient typically complains of dull aching pain over the lateral hip. The onset is typically slow but can occur following a traumatic event (fall, forceful sporting action). The pain is typically worsened with time and can be associated with a change in physical activity. Pain can radiate to the buttock and/or down the lateral thigh. Associated symptom of stiffness of hip on standing or walking following sitting. Sleep can be significantly disturbed as pain is typically worse at night time and pain makes it difficult to sleep on the side.^[2]

Pain can cause significant disability, particularly with single leg standing activities e.g. dressing, walking and going up stairs or hills.^[2] Patients with gluteal tendinopathy have levels of disability that is comparable to patients with severe hip osteoarthritis.^[5]

Examination

The resisted internal rotation test. Patient is supine with affected hip and knee at 90° flexion and hip at 10° internal rotation. The patient actively internally rotates the hip against resistance (knee away and foot towards examiner in photo). The test is positive with pain reproduction or weakness.^[6]

Gait: The patient is assessed during gait to evaluate for a Trendelenburg pattern. This test is highly specific but not sensitive, and is more suggestive of advanced disease.^[6]

Tenderness to palpation of the greater trochanter: This is a considered a cardinal sign. Any absence of tenderness should raise suspicion for an alternative diagnosis.^[1]

Sustained single-leg stance: Lateral hip pain reproduced on 30s single-leg stance test has a sensitivity and specificity of 100% and 97.3% respectively for gluteal tendinopathy. The high utility of the test is only maintained if the patient is instructed not to hitch the pelvis into relative abduction (where there is reduced tendon compression load). The examiner may provide gentle fingertip support to steady the patient.^[2]

Resisted abduction test: performed with the patient in lateral decubitus. It has a 73% sensitivity and 87% specificity. Patients with decreased hip power are more likely to fail non operative management.^[6]

Resisted internal rotation test: See figure for picture and instructions. It is more accurate than Trendelenburg gait, greater trochanteric tenderness, and resisted abduction. This test is based on the function of gluteus medius as an internal rotator, with the internal rotation torque increased in a position of hip flexion. It has a sensitivity of 92% and specificity of 85% for the detection of gluteus medius tears. ^[6]

FABER: The FABER test is useful in the differential diagnosis as limited range of movement is associated with hip joint pathology but not gluteal tendinopathy.^[2]

The lumbosacral spine should also be examined.

Ober's test: has been shown to lack diagnostic utility for gluteal tendinopathy.^[2]

Investigations

MRI is gold standard as it can visualise changes associated with gluteal tendinopathy, such as tendon thickening and soft tissue oedema, the clearest.^[2] MRI is also useful in excluding other causes of lateral hip pain.^[2] However, MRI is expensive and not very accessible.^[2] Consequently, ultrasound is typically used in clinical practice.^[2] The accuracy of ultrasound in identifying gluteal tendinopathy is variable and dependent on operator experience and patient characteristics.^[2] It is important to note that it is normal for radiological changes to be present in the asymptomatic population, thus, any findings need to be considered within the clinical context.^[2]

Imaging Findings

Xray

Plain radiographs are helpful for ruling out hip osteoarthritis, femoroacetabular impingement, and calcific tendinopathy. However pincer-type FAI may be associated with the development of GTPS.^[7]

Ultrasound

Ultrasound is operator dependent. It has a higher PPV than MRI when done by an experienced musculoskeletal radiologist.^[7] Findings include:^[8]

Thickened tendons
Reduced echogenicity of tendons
More heterogeneous echogenicity of tendons
Increased echogenicity of muscles as reduced muscle bulk and increased fat
Partial tears are indicated by thinning of the tendon and partial thickness area free from echo
Complete tears are indicated by the full thickness of the tender being free from echo and a “bald” facet
Deep to gluteus tendon insertions there may be cortical irregularities

On Doppler Ultrasound uncommonly one can see increased vascularity^[8]

MRI^[9]

Tears on MRI are classified as tendinosis, partial-thickness, or full-thickness. Findings do not correlate well with symptoms, with abnormalities seen in 50% of patients without lateral hip pain.^[10]

Tendinosis is suggested by hyperintensity in T2-weighted images within the tendon of gluteus minimus and/or gluteus medius
Fluid distension of the greater trochanteric bursa
On coronal T1-weighted imaging there may be fatty streaks or fatty infiltration of gluteus minimus and/or gluteus medius
Partial tears are indicated by hyperintensity in T2 view within the tendon of gluteus minimus and/or gluteus medius along with a thickened tendon.
Partial tears can presents with or without tendon thinning
Complete tears are indicated by disruption of the tendon of gluteus minimus and/or gluteus medius
Osseous avulsion may or may not be present in a complete tear

Other Investigations

Other imaging techniques are currently being developed. These include ultrasound tissue characterisation and elastography.^[2]

Diagnosis

No clear diagnostic criteria exists for gluteal tendinopathy.^[11] Typically the diagnosis is made clinically.^[11] The history most commonly involves lateral hip pain that is exacerbated by activity and lying on the affected side.^[11] On examination, one would expect to find tenderness on palpation of the greater trochanter.^[11] This is the most common clinical finding in gluteal tendinopathy.^[11]

Hip osteoarthritis is a common differential diagnosis for lateral hip pain. Asking about difficulty in manipulating shoes and socks is a useful way to differentiate the conditions.^[12] A paper published in the British Journal of Sports Medicine suggested that diagnostic criteria for gluteal tendinopathy should include the patient reporting to have no difficulty in manipulating socks and shoes.^[12] This paper also suggested the diagnostic criteria to include lateral hip pain reproduced on the FABER test as the FABER test should not produce lateral hip pain in hip osteoarthritis.^[12]

Differential Diagnosis

Gluteal Tendinopathy
Hip (femoroacetabular) osteoarthrosis
Somatic Referred Pain from the Lumbar Spine or Sacroiliac Joints
Calcific Tendinopathy of the abductor tendons
Meralgia paresthetica
Snapping hip syndrome
Femoroacetabular Impingement
Proximal iliotibial band syndrome
Apophysitis of the pelvis and hip
Acetabular labral pathology
Lumbar Spinal Stenosis
Lumbar Radicular Pain
Piriformis syndrome
Morel-Lavallée lesion
Post-traumatic haematoma, seroma, or lymphocele.
Soft tissue tumour
Femoral head avascular necrosis
Femoral neck fracture
Femoral neck stress fracture
Iliopsoas tendinopathy
Sports hernia
Fibromyalgia
Myofascial trigger points
Complex regional pain syndrome
Referred pain from intra-abdominal processes

Treatment

Gluteal tendinopathy for the majority is self limiting. It has been reported that more than 90% of people are responsive to conservative treatment. Those who are not are considered refractory cases.^[11]

Conservative treatment can include physiotherapy, NSAIDs, corticosteroid injections (CSI), shockwave therapy, and PRP injections. There are varying levels of evidence for each of these interventions. Evidence does not support the conservative treatment of deep transverse friction massage, therapeutic ultrasound and acupuncture.^[11]

Physiotherapy that is based around eccentric exercises has been shown to be effective in other tendinopathies.^[11] Therefore, eccentric exercise has promise in the treatment of gluteal tendinopathy.

Ultrasound can be used for needle guidance of CSI. The injectate is deposited directly on the bone and around the injections or into the tendon itself. However, no significant difference between ultrasound guided and blind injection outcomes have been found.^[11] CSI may provide benefit in the short term but with a high recurrence rate and poorer results in the long term.

Given the paucity of treatments for chronic gluteal tendinopathy (>3 months) and transient amelioration effect of CSI, there is interest whether biologic products such as PRP may provide better long-term outcomes for this condition.^[13] The use of PRP has been controversial, especially in tendinopathies given its slower onset of action to see its efficacy. Some tendons respond differently to PRP. Technician skills, type of condition being treated and type of PRP used are all variables that can affect its effectiveness.

There is no universally prescribed treatment protocol.^[11] However, the LEAP protocol is shown to be promising when compared to no treatment and single corticosteroid injection. The LEAP protocol involves education on load management (e.g. avoiding lying on side of affected leg) and a specific exercise programme.^[14] This study and its results can be found in the resources below.

Exercise

The Leap Trial provides a template for load progression. It was found to be superior to a single corticosteroid injection and a wait-and-see approaches. See infographic

Surgery

Gluteal tendon reconstruction is experimental with no standardised techniques.^[13] If surgery is done it involves a combination of some of the following procedures: bursectomy, ITB release, trochanteric reduction osteotomy and gluteal tendon repair.^[11]

Follow Up and Prognosis

Over 90% respond to conservative treatment but there are still large number of patients thar fail non-operative treatment with significant levels of dysfunction making it important to find novel treatment strategies.

Summary

Aetiology and pathophysiology for gluteal tendinopathy remains incompletely known.
Prevalence is highest in women over 40 years
Both athletes and sedentary individuals are affected
History of lateral hip pain
Examination of lateral hip pain reproduced on FABER test and 30s single-leg stance test
No set diagnostic criteria
Diagnosis is typically clinical
Imaging can be done with MRI being gold standard but ultrasound more clinically available
No universally prescribed treatment protocol but LEAP protocol provides some promise
Conservative treatment effective in more than 90% of cases

Resources

Gluteal Tendinopathy - Grimaldi 2015 - 2.94 MB (f)

Good review article from a physiotherapy perspective

Pathogenesis and contemporary diagnoses for lateral hip pain - Kumar 2020 - 1,007 KB (f)

Review on the causes of lateral hip pain

Greater trochanteric pain syndrome simplified MRI approach - Amin 2022 - 1.18 MB (f)

LEAP Trial - Mellor 2018 - 455 KB (f)

Important RCT comparing corticosteroid to structured load management

LEAP Protocol - 1.34 MB (f)

Links

How physiotherapists treat gluteal tendinopathy by Dr Alison Grimaldi

↑ ^1.0 ^1.1 Grimaldi, Alison; Mellor, Rebecca; Hodges, Paul; Bennell, Kim; Wajswelner, Henry; Vicenzino, Bill (2015-08). "Gluteal Tendinopathy: A Review of Mechanisms, Assessment and Management". Sports Medicine (in English). 45 (8): 1107–1119. doi:10.1007/s40279-015-0336-5. ISSN 0112-1642. Check date values in: |date= (help)
↑ ^2.00 ^2.01 ^2.02 ^2.03 ^2.04 ^2.05 ^2.06 ^2.07 ^2.08 ^2.09 ^2.10 ^2.11 ^2.12 ^2.13 ^2.14 ^2.15 ^2.16 Grimaldi, Alison; Mellor, Rebecca; Hodges, Paul; Bennell, Kim; Wajswelner, Henry; Vicenzino, Bill (2015-05-13). "Gluteal Tendinopathy: A Review of Mechanisms, Assessment and Management". Sports Medicine. 45 (8): 1107–1119. doi:10.1007/s40279-015-0336-5. ISSN 0112-1642.
↑ ^3.0 ^3.1 ^3.2 ^3.3 Cook, J L; Purdam, C R (2008-09-23). "Is tendon pathology a continuum? A pathology model to explain the clinical presentation of load-induced tendinopathy". British Journal of Sports Medicine. 43 (6): 409–416. doi:10.1136/bjsm.2008.051193. ISSN 0306-3674.
↑ Segal, Neil A.; Torner, James; Xie, Hui; Felson, David; Curtis, Jeffrey R.; Nevitt, Michael (2006-11-01). "PR_092: Greater Trochanteric Pain Syndrome: Epidemiology and Associated Factors". Archives of Physical Medicine and Rehabilitation (in English). 87 (11): e20. doi:10.1016/j.apmr.2006.08.114. ISSN 0003-9993.
↑ Bohn, Marie Bagger; Lund, Bent; Spoorendonk, Kasper; Lange, Jeppe (2021-05-28). "Gluteal-related lateral hip pain". Danish Medical Journal. 68 (6): A01210027. ISSN 2245-1919. PMID 34704929.
↑ ^6.0 ^6.1 ^6.2 ^6.3 Ortiz-Declet, Victor; Chen, Austin W; Maldonado, David R; Yuen, Leslie C; Mu, Brian; Domb, Benjamin G (2019-12-01). "Diagnostic accuracy of a new clinical test (resisted internal rotation) for detection of gluteus medius tears". Journal of Hip Preservation Surgery (in English). 6 (4): 398–405. doi:10.1093/jhps/hnz046. ISSN 2054-8397. PMC 6990389. PMID 32015892.CS1 maint: PMC format (link)
↑ ^7.0 ^7.1 Sunil Kumar, Karadi Hari; Rawal, Jaikirty; Nakano, Naoki; Sarmento, André; Khanduja, Vikas (2021-08). "Pathogenesis and contemporary diagnoses for lateral hip pain: a scoping review". Knee Surgery, Sports Traumatology, Arthroscopy (in English). 29 (8): 2408–2416. doi:10.1007/s00167-020-06354-1. ISSN 0942-2056. Check date values in: |date= (help)
↑ ^8.0 ^8.1 Kong, Andrew; Van der Vliet, Andrew; Zadow, Steven (2006-12-06). "MRI and US of gluteal tendinopathy in greater trochanteric pain syndrome". European Radiology. 17 (7): 1772–1783. doi:10.1007/s00330-006-0485-x. ISSN 0938-7994.
↑ Dadour, Joseph Rudy; Gilbert, Guillaume; Lepage-Saucier, Marianne; Freire, Véronique; Bureau, Nathalie J. (2021-04-29). "Quantitative MRI in patients with gluteal tendinopathy and asymptomatic volunteers: initial results on T1- and T2*-mapping diagnostic accuracy and correlation with clinical assessment". Skeletal Radiology. 50 (11): 2221–2231. doi:10.1007/s00256-021-03781-0. ISSN 0364-2348.
↑ Blankenbaker, Donna G.; Ullrick, Steven R.; Davis, Kirkland W.; De Smet, Arthur A.; Haaland, Ben; Fine, Jason P. (2008-10). "Correlation of MRI findings with clinical findings of trochanteric pain syndrome". Skeletal Radiology. 37 (10): 903–909. doi:10.1007/s00256-008-0514-8. ISSN 0364-2348. PMID 18566811. Check date values in: |date= (help)
↑ ^11.00 ^11.01 ^11.02 ^11.03 ^11.04 ^11.05 ^11.06 ^11.07 ^11.08 ^11.09 ^11.10 Reid, Diane (2016-03). "The management of greater trochanteric pain syndrome: A systematic literature review". Journal of Orthopaedics. 13 (1): 15–28. doi:10.1016/j.jor.2015.12.006. ISSN 0972-978X. Check date values in: |date= (help)
↑ ^12.0 ^12.1 ^12.2 Fearon, Angela M; Scarvell, Jennie M; Neeman, Terry; Cook, Jill L; Cormick, Wes; Smith, Paul N (2013-07). "Greater trochanteric pain syndrome: defining the clinical syndrome". British Journal of Sports Medicine (in English). 47 (10): 649–653. doi:10.1136/bjsports-2012-091565. ISSN 0306-3674. Check date values in: |date= (help)
↑ ^13.0 ^13.1 Koulischer, Simon; Callewier, Antoine; Zorman, David (June 2017). "Management of greater trochanteric pain syndrome : a systematic review". Acta Orthopaedica Belgica. 83 (2): 205–214. ISSN 0001-6462. PMID 30399983.
↑ Mellor, Rebecca; Bennell, Kim; Grimaldi, Alison; Nicolson, Philippa; Kasza, Jessica; Hodges, Paul; Wajswelner, Henry; Vicenzino, Bill (2018-05-02). "Education plus exercise versus corticosteroid injection use versus a wait and see approach on global outcome and pain from gluteal tendinopathy: prospective, single blinded, randomised clinical trial". BMJ: k1662. doi:10.1136/bmj.k1662. ISSN 0959-8138.

Literature Review

Reviews from the last 7 years: review articles, free review articles, systematic reviews, meta-analyses, NCBI Bookshelf

Articles from all years: PubMed search, Google Scholar search.

TRIP Database: clinical publications about evidence-based medicine.

Other Wikis: Radiopaedia, Wikipedia Search, Wikipedia I Feel Lucky, Orthobullets,

[:7-1] 1.0 ^1.1 Grimaldi, Alison; Mellor, Rebecca; Hodges, Paul; Bennell, Kim; Wajswelner, Henry; Vicenzino, Bill (2015-08). "Gluteal Tendinopathy: A Review of Mechanisms, Assessment and Management". Sports Medicine (in English). 45 (8): 1107–1119. doi:10.1007/s40279-015-0336-5. ISSN 0112-1642. Check date values in: |date= (help)

[:1-2] 2.00 ^2.01 ^2.02 ^2.03 ^2.04 ^2.05 ^2.06 ^2.07 ^2.08 ^2.09 ^2.10 ^2.11 ^2.12 ^2.13 ^2.14 ^2.15 ^2.16 Grimaldi, Alison; Mellor, Rebecca; Hodges, Paul; Bennell, Kim; Wajswelner, Henry; Vicenzino, Bill (2015-05-13). "Gluteal Tendinopathy: A Review of Mechanisms, Assessment and Management". Sports Medicine. 45 (8): 1107–1119. doi:10.1007/s40279-015-0336-5. ISSN 0112-1642.

[:2-3] 3.0 ^3.1 ^3.2 ^3.3 Cook, J L; Purdam, C R (2008-09-23). "Is tendon pathology a continuum? A pathology model to explain the clinical presentation of load-induced tendinopathy". British Journal of Sports Medicine. 43 (6): 409–416. doi:10.1136/bjsm.2008.051193. ISSN 0306-3674.

[4] Segal, Neil A.; Torner, James; Xie, Hui; Felson, David; Curtis, Jeffrey R.; Nevitt, Michael (2006-11-01). "PR_092: Greater Trochanteric Pain Syndrome: Epidemiology and Associated Factors". Archives of Physical Medicine and Rehabilitation (in English). 87 (11): e20. doi:10.1016/j.apmr.2006.08.114. ISSN 0003-9993.

[5] Bohn, Marie Bagger; Lund, Bent; Spoorendonk, Kasper; Lange, Jeppe (2021-05-28). "Gluteal-related lateral hip pain". Danish Medical Journal. 68 (6): A01210027. ISSN 2245-1919. PMID 34704929.

[:6-6] 6.0 ^6.1 ^6.2 ^6.3 Ortiz-Declet, Victor; Chen, Austin W; Maldonado, David R; Yuen, Leslie C; Mu, Brian; Domb, Benjamin G (2019-12-01). "Diagnostic accuracy of a new clinical test (resisted internal rotation) for detection of gluteus medius tears". Journal of Hip Preservation Surgery (in English). 6 (4): 398–405. doi:10.1093/jhps/hnz046. ISSN 2054-8397. PMC 6990389. PMID 32015892.CS1 maint: PMC format (link)

[:8-7] 7.0 ^7.1 Sunil Kumar, Karadi Hari; Rawal, Jaikirty; Nakano, Naoki; Sarmento, André; Khanduja, Vikas (2021-08). "Pathogenesis and contemporary diagnoses for lateral hip pain: a scoping review". Knee Surgery, Sports Traumatology, Arthroscopy (in English). 29 (8): 2408–2416. doi:10.1007/s00167-020-06354-1. ISSN 0942-2056. Check date values in: |date= (help)

[:3-8] 8.0 ^8.1 Kong, Andrew; Van der Vliet, Andrew; Zadow, Steven (2006-12-06). "MRI and US of gluteal tendinopathy in greater trochanteric pain syndrome". European Radiology. 17 (7): 1772–1783. doi:10.1007/s00330-006-0485-x. ISSN 0938-7994.

[9] Dadour, Joseph Rudy; Gilbert, Guillaume; Lepage-Saucier, Marianne; Freire, Véronique; Bureau, Nathalie J. (2021-04-29). "Quantitative MRI in patients with gluteal tendinopathy and asymptomatic volunteers: initial results on T1- and T2*-mapping diagnostic accuracy and correlation with clinical assessment". Skeletal Radiology. 50 (11): 2221–2231. doi:10.1007/s00256-021-03781-0. ISSN 0364-2348.

[10] Blankenbaker, Donna G.; Ullrick, Steven R.; Davis, Kirkland W.; De Smet, Arthur A.; Haaland, Ben; Fine, Jason P. (2008-10). "Correlation of MRI findings with clinical findings of trochanteric pain syndrome". Skeletal Radiology. 37 (10): 903–909. doi:10.1007/s00256-008-0514-8. ISSN 0364-2348. PMID 18566811. Check date values in: |date= (help)

[:4-11] 11.00 ^11.01 ^11.02 ^11.03 ^11.04 ^11.05 ^11.06 ^11.07 ^11.08 ^11.09 ^11.10 Reid, Diane (2016-03). "The management of greater trochanteric pain syndrome: A systematic literature review". Journal of Orthopaedics. 13 (1): 15–28. doi:10.1016/j.jor.2015.12.006. ISSN 0972-978X. Check date values in: |date= (help)

[:5-12] 12.0 ^12.1 ^12.2 Fearon, Angela M; Scarvell, Jennie M; Neeman, Terry; Cook, Jill L; Cormick, Wes; Smith, Paul N (2013-07). "Greater trochanteric pain syndrome: defining the clinical syndrome". British Journal of Sports Medicine (in English). 47 (10): 649–653. doi:10.1136/bjsports-2012-091565. ISSN 0306-3674. Check date values in: |date= (help)

[:0-13] 13.0 ^13.1 Koulischer, Simon; Callewier, Antoine; Zorman, David (June 2017). "Management of greater trochanteric pain syndrome : a systematic review". Acta Orthopaedica Belgica. 83 (2): 205–214. ISSN 0001-6462. PMID 30399983.

[14] Mellor, Rebecca; Bennell, Kim; Grimaldi, Alison; Nicolson, Philippa; Kasza, Jessica; Hodges, Paul; Wajswelner, Henry; Vicenzino, Bill (2018-05-02). "Education plus exercise versus corticosteroid injection use versus a wait and see approach on global outcome and pain from gluteal tendinopathy: prospective, single blinded, randomised clinical trial". BMJ: k1662. doi:10.1136/bmj.k1662. ISSN 0959-8138.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]

[14]

@@ Line 61: / Line 61: @@
 ===Examination===
-[[File:Gluteus medius tear resisted internal rotation test.jpg|thumb|The resisted internal rotation test. Patient is supine with affected hip and knee at 90° flexion and hip at 10° internal rotation. The patient actively internally rotates the hip against resistance (knee away and foot towards examiner in photo). The test is positive with pain reproduction or weakness.<ref name=":6">{{Cite journal|last=Ortiz-Declet|first=Victor|last2=Chen|first2=Austin W|last3=Maldonado|first3=David R|last4=Yuen|first4=Leslie C|last5=Mu|first5=Brian|last6=Domb|first6=Benjamin G|date=2019-12-01|title=Diagnostic accuracy of a new clinical test (resisted internal rotation) for detection of gluteus medius tears|url=https://academic.oup.com/jhps/article/6/4/398/5625718|journal=Journal of Hip Preservation Surgery|language=en|volume=6|issue=4|pages=398–405|doi=10.1093/jhps/hnz046|issn=2054-8397|pmc=PMC6990389|pmid=32015892}}</ref>]]
+[[File:Gluteus medius tear resisted internal rotation test.jpg|thumb|The resisted internal rotation test. Patient is supine with affected hip and knee at 90° flexion and hip at 10° internal rotation. The patient actively internally rotates the hip against resistance (knee away and foot towards examiner in photo). The test is positive with pain reproduction or weakness.<ref name=":6">{{Cite journal|last=Ortiz-Declet|first=Victor|last2=Chen|first2=Austin W|last3=Maldonado|first3=David R|last4=Yuen|first4=Leslie C|last5=Mu|first5=Brian|last6=Domb|first6=Benjamin G|date=2019-12-01|title=Diagnostic accuracy of a new clinical test (resisted internal rotation) for detection of gluteus medius tears|url=https://academic.oup.com/jhps/article/6/4/398/5625718|journal=Journal of Hip Preservation Surgery|language=en|volume=6|issue=4|pages=398–405|doi=10.1093/jhps/hnz046|issn=2054-8397|pmc=PMC6990389|pmid=32015892}}</ref>|430x430px]]
 '''Gait:''' The patient is assessed during [[gait]] to evaluate for a Trendelenburg pattern. This test is highly specific but not sensitive, and is more suggestive of advanced disease.<ref name=":6" />

Gluteal Tendinopathy

The four facets of a right greater trochanter. The gluteus medius inserts at the superoposterior and lateral facets; gluteus minimus inserts at the anterior facet.
Epidemiology	Women aged over 40
Pathophysiology	Degenerative tendinopathy as a result of excessive compressive and tensile loads.
Clinical Features	Chronic lateral hip pain that is exacerbated by activity and side-lying. Greater trochanteric tenderness and pain provocation in tests assessing the use of the hip abductors.
Diagnosis	Clinical diagnosis with no accepted criteria
DDX	Hip osteoarthritis, Lumbar spine somatic referred pain.
Treatment	Load management, avoidance of compressive forces, graded exercise programme, injections, surgery.
Prognosis	Usually self-limiting