Greater Trochanter of the Hip: Attachment of the Abductor Mechanism and a Complex of Three Bursae--MR Imaging and MR Bursography in Cadavers and MR Imaging in Asymptomatic Volunteers

Overview

Journal Radiology

Specialty Radiology

Date 2001 Nov 1

PMID 11687692

Citations 48

Authors

C W Pfirrmann

C B Chung

N H Theumann

D J Trudell

D Resnick

Affiliations

Soon will be listed here.

Abstract

Purpose: To evaluate trochanteric anatomy with magnetic resonance (MR) imaging, bursography, MR bursography, and anatomic analysis.

Materials And Methods: T1-weighted and fat-saturated T2-weighted (transverse, sagittal, coronal, and coronal oblique planes) MR imaging of the greater trochanter was performed in 10 cadaveric hips and 12 hips of asymptomatic volunteers. Three bursae comprising the trochanteric bursa complex were injected, and conventional radiography and MR imaging were performed. The specimens were sectioned for anatomic analysis, corresponding to the MR imaging planes. Tendon attachments and bursal localization were related to the facets of the greater trochanter.

Results: The bony surface of the greater trochanter consists of four facets: anterior, lateral, posterior, and superoposterior. The gluteus medius muscle attaches to the superoposterior and lateral facets. The gluteus minimus muscle attaches to the anterior facet. The trochanteric bursa covered the posterior facet and the lateral insertion of the gluteus medius muscle. The subgluteus medius bursa was located in the superior part of the lateral facet, underneath the gluteus medius tendon. The subgluteus minimus bursa lies in the area of the anterior facet, underneath the gluteus minimus tendon, medial and cranial to its insertion, and extends medially covering the distal anterior part of the hip joint capsule. The trochanteric bursa is delineated with fat on both sides and can be seen on transverse nonenhanced T1-weighted images as a fine line curving around the posterior part of the trochanter.

Conclusion: MR imaging and bursography provide detailed information about the anatomy of tendinous attachments of the abductor muscles and the bursal complex of the greater trochanter.

Citing Articles

Influence of hip morphology on gluteal muscle biomechanics: a computational modeling study.

Wang S, Serbin R, Bonvillain K, Jolissaint J, Habet N, Weeks D BMC Musculoskelet Disord. 2025; 26(1):35.

PMID: 39789570 PMC: 11716244. DOI: 10.1186/s12891-024-08136-z.

Contributions of the Abductor Muscles to Rotational and Distractive Stability of the Hip in a Biomechanical Cadaveric Model.

Lim D, Lazaro L, Kyhos J, Chau M, Ladnier K, Nelson T Orthop J Sports Med. 2024; 12(3):23259671241231984.

PMID: 38444567 PMC: 10913509. DOI: 10.1177/23259671241231984.

Excision of trochanteric bursa during total hip replacement: Does it reduce the incidence of post-operative trochanteric bursitis?.

Teng W, Ditta A, Webber J, Pearce O World J Orthop. 2023; 14(7):533-539.

PMID: 37485424 PMC: 10359745. DOI: 10.5312/wjo.v14.i7.533.

Natural History of Degenerative Hip Abductor Tendon Lesions.

Schenk P, Dimitriou D, Rahm S, Zimmermann S, Finsterwald M, Higashigaito K Am J Sports Med. 2022; 51(1):160-168.

PMID: 36412545 PMC: 9810830. DOI: 10.1177/03635465221135759.

Lateral trochanteric bursa repair improves early hip function after posterior approach total hip arthroplasty: a prospective randomized control trial.

Chalidis B, Sachinis N, Hawdon G, McMahon S Arthroplasty. 2022; 4(1):26.

PMID: 35668516 PMC: 9169311. DOI: 10.1186/s42836-022-00127-6.