The effect of humeral tray thickness on glenohumeral loads in a reverse shoulder 'smart' implant.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-11-01 Epub Date: 2024-09-02 DOI:10.1007/s00264-024-06282-6

Alexandre Caubère, Stella Rutigliano, Samuel Bourdon, John Erickson, Moreno Morelli, Moby Parsons, Lionel Neyton, Marc-Olivier Gauci

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Abstract

Purpose: The aim of this study was to observe the effects of changing humeral tray thickness on the resultant of intraoperative glenohumeral joint loads using a load-sensing system (LSS).

Methods: An rTSA was performed on fresh frozen full-body cadaver shoulders by using an internal proprietary LSS on the humeral side. The glenohumeral loads (Newtons) and the direction of the resultant force applied on the implant were recorded during four standard positions (External rotation, Extension, Abduction, Flexion) and three "complex" positions of Activity Daily Life ("behind back", "overhead reach" and "across chest"). For each position, the thickness was increased from 0 to 6 mm in a continuous fashion using the adjustment feature of the humeral system. Each manoeuvre was repeated three times.

Results: All shoulder positions showed a high repeatability of the glenohumeral load magnitude measured with an intra-class correlation coefficient of over 0.9. For each position, we observed a strong but no linear correlation between humeral tray thickness and joint loads. It was a cubical correlation (r_s = 0,91) with a short ascending phase, then a plateau phase, and finally a phase with an exponential growth of the loads on the humeral implant. In addition, an increase in trail-poly thickness led to a recentering of force application at the interface of the two glenohumeral implants.

Conclusion: This study provides further insight into the effects of humeral implant thickness on rTSA glenohumeral joint loads during different positions of the arm. Data obtained using this type of device could guide surgeons in finding the proper implant balance during rTSA.

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肱骨托盘厚度对反向肩部 "智能 "植入体盂肱负荷的影响。

目的：本研究的目的是使用负荷传感系统（LSS）观察改变肱骨托厚度对术中盂肱关节负荷结果的影响：方法：在肱骨侧使用内部专有 LSS 对新鲜冷冻的全身尸体肩部进行 rTSA。在四个标准体位（外旋、外展、内收、外屈）和日常生活中的三个 "复杂 "体位（"背后"、"头顶 "和 "胸前"）上记录盂肱关节负荷（牛顿）和施加在假体上的合力方向。在每个位置上，使用肱骨系统的调节功能将厚度从 0 毫米持续增加到 6 毫米。每个动作重复三次：结果：所有肩部体位测量的盂肱关节负荷大小都具有很高的重复性，类内相关系数超过 0.9。在每个姿势下，我们都观察到肱骨托厚度与关节负荷之间存在较强的线性相关，但并不存在线性相关。这是一种立方相关关系（rs = 0,91），先是短暂的上升阶段，然后是高原阶段，最后是肱骨假体负荷指数增长阶段。此外，踪迹聚合体厚度的增加导致两个盂肱假体界面的受力重新集中：本研究进一步揭示了肱骨假体厚度在手臂不同位置时对rTSA盂肱关节负荷的影响。使用这种装置获得的数据可以指导外科医生在进行 rTSA 时找到适当的植入物平衡。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464