Brian L Walters1, John H Cooper2, José A Rodriguez2. 1. Andrews Sports Medicine & Orthopaedic Center, Birmingham, Alabama, U.S.A.. Electronic address: Brianwaltersmd@gmail.com. 2. Center for Joint Preservation and Reconstruction, Lenox Hill Hospital, New York, New York, U.S.A.
Abstract
PURPOSE: The purpose of this investigation was to provide a detailed description of the anatomy of the hip capsule and pericapsular structures. METHODS: Dissections were performed on 11 nonpaired, fresh-frozen cadaveric hips by 2 independent observers: 1 fellowship-trained orthopaedic total joint surgeon and 1 chief orthopaedic surgery resident. Documentation of capsular thickness, origins, insertions, and attachments to pericapsular structures including the abductors, rectus femoris, piriformis, short external rotators, and iliocapsularis muscles was performed. Tendinous insertions of the surrounding pericapsular muscles were measured according to size and distance from reproducible osseous landmarks. RESULTS: The capsule is thickest near the acetabular origin at the posterosuperior and superior hemi-quadrants and is thinnest near the femoral insertion in the posterior and posteroinferior hemi-quadrants. The iliocapsularis, indirect head of the rectus, conjoint, obturator externus, and gluteus minimus tendons all show consistent capsular contributions, whereas the piriformis does not have a capsular attachment. Osseous landmarks for tendinous attachments are defined and illustrated. The inter-relation of these structures is complex, yet their relations to the anterior hip capsule and contributions to its thickness are predictable. CONCLUSIONS: The dynamic pericapsular structures pertinent to the hip arthroscopist include the iliocapsularis, gluteus minimus, and reflected head of the rectus femoris. At the acetabulum, the thickest region of the capsule is posterosuperior and superolateral. At the femoral insertion, the thickest region is anterior. CLINICAL RELEVANCE: Knowledge of the intricate relation between the hip capsule and pericapsular structures presented here will be useful for surgeons as they perform the precise and specific capsular releases required during hip arthroscopy. Our anatomic findings contribute important qualitative data that build on the recent literature regarding the importance of capsular management during hip arthroscopy to postoperative hip stability.
PURPOSE: The purpose of this investigation was to provide a detailed description of the anatomy of the hip capsule and pericapsular structures. METHODS: Dissections were performed on 11 nonpaired, fresh-frozen cadaveric hips by 2 independent observers: 1 fellowship-trained orthopaedic total joint surgeon and 1 chief orthopaedic surgery resident. Documentation of capsular thickness, origins, insertions, and attachments to pericapsular structures including the abductors, rectus femoris, piriformis, short external rotators, and iliocapsularis muscles was performed. Tendinous insertions of the surrounding pericapsular muscles were measured according to size and distance from reproducible osseous landmarks. RESULTS: The capsule is thickest near the acetabular origin at the posterosuperior and superior hemi-quadrants and is thinnest near the femoral insertion in the posterior and posteroinferior hemi-quadrants. The iliocapsularis, indirect head of the rectus, conjoint, obturator externus, and gluteus minimus tendons all show consistent capsular contributions, whereas the piriformis does not have a capsular attachment. Osseous landmarks for tendinous attachments are defined and illustrated. The inter-relation of these structures is complex, yet their relations to the anterior hip capsule and contributions to its thickness are predictable. CONCLUSIONS: The dynamic pericapsular structures pertinent to the hip arthroscopist include the iliocapsularis, gluteus minimus, and reflected head of the rectus femoris. At the acetabulum, the thickest region of the capsule is posterosuperior and superolateral. At the femoral insertion, the thickest region is anterior. CLINICAL RELEVANCE: Knowledge of the intricate relation between the hip capsule and pericapsular structures presented here will be useful for surgeons as they perform the precise and specific capsular releases required during hip arthroscopy. Our anatomic findings contribute important qualitative data that build on the recent literature regarding the importance of capsular management during hip arthroscopy to postoperative hip stability.
Authors: Chace Shaw; Hunter Warwick; Kevin H Nguyen; Thomas M Link; Sharmila Majumdar; Richard B Souza; Thomas P Vail; Alan L Zhang Journal: J Orthop Res Date: 2020-07-06 Impact factor: 3.102
Authors: Philipp Pieroh; Sebastian Schneider; Uwe Lingslebe; Freddy Sichting; Thomas Wolfskämpf; Christoph Josten; Jörg Böhme; Niels Hammer; Hanno Steinke Journal: PLoS One Date: 2016-09-29 Impact factor: 3.240
Authors: Benjamin D Kuhns; Alexander E Weber; David M Levy; Asheesh Bedi; Richard C Mather; Michael J Salata; Shane J Nho Journal: Front Surg Date: 2016-03-04