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反肩关节置换术中稳定性因素的层级

Hierarchy of stability factors in reverse shoulder arthroplasty.

作者信息

Gutiérrez Sergio, Keller Tony S, Levy Jonathan C, Lee William E, Luo Zong-Ping

机构信息

University of South Florida, College of Engineering, Chemical and Biomedical Engineering, Tampa, FL 33637, USA.

出版信息

Clin Orthop Relat Res. 2008 Mar;466(3):670-6. doi: 10.1007/s11999-007-0096-0. Epub 2008 Feb 10.

DOI:10.1007/s11999-007-0096-0
PMID:18264855
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2505225/
Abstract

Reverse shoulder arthroplasty is being used more frequently to treat irreparable rotator cuff tears in the presence of glenohumeral arthritis and instability. To date, however, design features and functions of reverse shoulder arthroplasty, which may be associated with subluxation and dislocation of these implants, have been poorly understood. We asked: (1) what is the hierarchy of importance of joint compressive force, prosthetic socket depth, and glenosphere size in relation to stability, and (2) is this hierarchy defined by underlying and theoretically predictable joint contact characteristics? We examined the intrinsic stability in terms of the force required to dislocate the humerosocket from the glenosphere of eight commercially available reverse shoulder arthroplasty devices. The hierarchy of factors was led by compressive force followed by socket depth; glenosphere size played a much lesser role in stability of the reverse shoulder arthroplasty device. Similar results were predicted by a mathematical model, suggesting the stability was determined primarily by compressive forces generated by muscles.

摘要

在存在盂肱关节炎和不稳定的情况下,反肩关节置换术越来越频繁地用于治疗无法修复的肩袖撕裂。然而,迄今为止,人们对反肩关节置换术的设计特点和功能了解甚少,而这些特点和功能可能与这些植入物的半脱位和脱位有关。我们提出了两个问题:(1)关节压缩力、假体臼杯深度和球窝关节球头尺寸对稳定性而言,其重要性的层级关系是怎样的?(2)这种层级关系是否由潜在的、理论上可预测的关节接触特征所定义?我们通过将肱骨头臼杯从八个市售反肩关节置换装置的球窝关节球头上脱位所需的力,来研究其内在稳定性。影响因素的层级关系中,压缩力居首,其次是臼杯深度;球窝关节球头尺寸在反肩关节置换装置的稳定性中所起的作用要小得多。一个数学模型预测了类似的结果,表明稳定性主要由肌肉产生的压缩力决定。

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