肩袖对外展和关节稳定性的被动作用。

Passive contribution of the rotator cuff to abduction and joint stability.

作者信息

Tétreault Patrice, Levasseur Annie, Lin Jenny C, de Guise Jacques, Nuño Natalia, Hagemeister Nicola

机构信息

Laboratoire de recherche en imagerie et orthopédie, Centre de recherche, Centre hospitalier de l'Université de Montréal, Montreal, Canada.

出版信息

Surg Radiol Anat. 2011 Nov;33(9):767-73. doi: 10.1007/s00276-011-0807-9. Epub 2011 May 11.

DOI:10.1007/s00276-011-0807-9

PMID:21559985

Abstract

PURPOSE

The purpose of this study is to compare shoulder joint biomechanics during abduction with and without intact non-functioning rotator cuff tissue.

METHODS

A cadaver model was devised to simulate the clinical findings seen in patients with a massive cuff tear. Eight full upper limb shoulder specimens were studied. Initially, the rotator cuff tendons were left intact, representing a non-functional rotator cuff, as seen in suprascapular nerve paralysis or in cuff repair with a patch. Subsequently, a massive rotator cuff tear was re-created. Three-dimensional kinematics and force requirements for shoulder abduction were analyzed for each condition using ten abduction cycles in the plane of the scapula.

RESULTS

Mediolateral displacements of the glenohumeral rotation center (GHRC) during abduction with an intact non-functioning cuff were minimal, but massive cuff tear resulted in significant lateral displacement of the GHRC (p < 0.013). Similarly, massive cuff tear caused increased superior migration of the GHRC during abduction compared with intact non-functional cuff (p < 0.01). From 5 to 30° of abduction, force requirements were significantly less with an intact non-functioning cuff than with massive cuff tear (p < 0.009).

CONCLUSION

During abduction, an intact but non-functioning rotator cuff resulted in decreased GHRC displacement in two axes as well as lowered the force requirement for abduction from 5 to 30° as compared with the results following a massive rotator cuff tear. This provides insight into the potential biomechanical effect of repairing massive rotator cuff tears with a biological or synthetic "patch," which is a new treatment for massive cuff tear.

摘要

目的

本研究的目的是比较在有和没有完整的无功能肩袖组织的情况下，外展过程中肩关节的生物力学。

方法

设计了一个尸体模型来模拟巨大肩袖撕裂患者的临床所见。研究了8个完整的上肢肩部标本。最初，保留肩袖肌腱完整，代表无功能的肩袖，如在肩胛上神经麻痹或用补片进行肩袖修复时所见。随后，重新制造巨大的肩袖撕裂。在肩胛平面使用十个外展周期，分析每种情况下肩关节外展的三维运动学和力需求。

结果

在有完整的无功能肩袖的情况下外展时，肱骨头旋转中心（GHRC）的内外侧位移最小，但巨大肩袖撕裂导致GHRC明显向外侧位移（p < 0.013）。同样，与完整的无功能肩袖相比，巨大肩袖撕裂在外展过程中导致GHRC向上方移位增加（p < 0.01）。在外展5°至30°时，有完整的无功能肩袖时的力需求明显低于巨大肩袖撕裂时（p < 0.009）。

结论

在外展过程中，与巨大肩袖撕裂后的结果相比，完整但无功能的肩袖导致GHRC在两个轴上的位移减少，并且在外展5°至30°时降低了外展所需的力。这为用生物或合成“补片”修复巨大肩袖撕裂的潜在生物力学效应提供了见解，这是一种治疗巨大肩袖撕裂的新方法。

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肩袖对外展和关节稳定性的被动作用。

Passive contribution of the rotator cuff to abduction and joint stability.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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