肱骨颈干角和肱骨头外侧化对反肩关节置换稳定性的影响：一项尸体研究。

Effect of the humeral neck-shaft angle and glenosphere lateralization on stability of reverse shoulder arthroplasty: a cadaveric study.

机构信息

Department of Orthopaedic Surgery, Medical School Hannover, Hannover, Germany.

出版信息

J Shoulder Elbow Surg. 2019 May;28(5):966-973. doi: 10.1016/j.jse.2018.10.025. Epub 2019 Jan 7.

DOI:10.1016/j.jse.2018.10.025

PMID:30626537

Abstract

BACKGROUND

Lateralizing the glenosphere and decreasing the humeral neck-shaft angles are implant design parameters that reduce the risk of scapular impingement. The effects of these parameters on joint stability remain unclear. This study evaluated the effect of glenosphere lateralization and humeral neck-shaft angle on joint stability by quantifying the anterior dislocation force in different arm positions.

METHODS

Reverse shoulder arthroplasty was performed on 19 human shoulder specimens. Anterior dislocation force and maximum external rotation were evaluated using a robot-based shoulder simulator. By varying the neck-shaft angle and magnitudes of glenosphere lateralization, 12 configurations were analyzed with the glenohumeral joint in 30° and 60° of abduction, in neutral, and in 30° of external rotation.

RESULTS

At 30° of abduction, measurements showed significantly higher dislocation forces for the 9-mm and 6-mm lateralized glenosphere than for the 0-mm (P < .0001, P = .007) nonlateralized glenosphere. At 60° of abduction, measurements showed significantly higher dislocation forces for the 9-mm and 6-mm lateralized glenosphere than for the 0-mm (P < .0001, P = .0007) and 3-mm (P = .0003, P = .04) glenosphere. Configurations with a neck-shaft angle of 135° showed significantly higher dislocation forces than configurations with a neck-shaft angle of 145° (P = .02) or 155° (P = .02) at 30° of abduction in 30° of external rotation. Neck-shaft angle and glenosphere lateralization had no influence on maximum external rotation capability.

CONCLUSION

Glenosphere lateralization significantly increased anterior stability of the glenohumeral joint without influencing the range of passive external rotation. The humeral neck-shaft angle only had a minor effect on anterior stability.

摘要

背景

使肱骨头外移并减小肱骨干-肱骨颈角是降低肩峰下撞击风险的假体设计参数。这些参数对关节稳定性的影响尚不清楚。本研究通过量化不同臂位时的前脱位力，评估肱骨头外移和肱骨干-肱骨颈角对关节稳定性的影响。

方法

对 19 个人体肩部标本进行反向肩关节置换。使用基于机器人的肩关节模拟器评估前脱位力和最大外旋度。通过改变颈干角和肱骨头外移的程度，在 30°和 60°外展、中立位和 30°外旋时，分析了 12 种肱盂关节的配置。

结果

在 30°外展时，与 0 毫米（P < .0001，P = .007）非外移肱骨头相比，9 毫米和 6 毫米外移肱骨头的脱位力显著更高（P < .0001，P = .007）。在 60°外展时，与 0 毫米（P < .0001，P = .0007）和 3 毫米（P = .0003，P = .04）肱骨头相比，9 毫米和 6 毫米外移肱骨头的脱位力显著更高。在 30°外旋的 30°外展时，颈干角为 135°的构型比颈干角为 145°（P = .02）或 155°（P = .02）的构型的脱位力显著更高。颈干角和肱骨头外移对被动外旋的最大范围没有影响。

结论

肱骨头外移显著增加了肱盂关节的前向稳定性，而不影响被动外旋的范围。肱骨干-肱骨颈角仅对前向稳定性有轻微影响。

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肱骨颈干角和肱骨头外侧化对反肩关节置换稳定性的影响：一项尸体研究。

Effect of the humeral neck-shaft angle and glenosphere lateralization on stability of reverse shoulder arthroplasty: a cadaveric study.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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