反向全肩关节成形术中的肱骨远端分离:生物机器人肩关节模拟器研究。

IF 2.9 2区 医学 Q1 ORTHOPEDICS
Jared L Zitnay, Madelyn R Stout, Brittany Percin, Robert Z Tashjian, Peter N Chalmers, Christopher D Joyce, Gilles Walch, Heath B Henninger
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引用次数: 0

摘要

背景:肱骨远端化是反向全肩关节置换术(rTSA)的固有特点,通常会通过肱骨头切口水平、植入物定位、植入物颈轴角度和聚合物插入物厚度同时产生肱骨外侧化。有关肱骨远端化单独影响的生物力学数据仍然有限,但在优化 rTSA 术后肩关节功能时,这些数据可能是重要的考虑因素。本研究使用生物机器人肩关节模拟器研究了孤立肱骨远端化对肩关节生物力学的影响:方法:使用定制的聚合物插入物对8个新鲜冷冻的尸体肩部进行了测试,这些插入物将承重面沿肱骨干轴线移动了0、+5、+10和+15毫米,产生了孤立的远端化而没有侧移。标本在肩胛平面上进行静态肩胛被动抬高,以评估盂肱运动范围。然后,根据之前从rTSA患者身上收集的肩胛胸和盂肱运动学数据,进行肩胛平面外展运动轨迹分析。使用混合效应线性回归测试了孤立远端化对被动抬高的影响,并使用统计参数映射随机效应分析测试了主动肩胛平面外展时对肌肉力量、关节反作用力和肌肉偏移的影响:最大被动肩胛平面抬高随着肱骨远端化而增加(每5 mm远端化增加4°)。在主动抬高过程中,三角肌和肩袖肌力以及关节反作用力每远端化5毫米最多增加37%。随着远端化程度的增加,模拟三角肌偏移量也会发生变化,但每 5 毫米远端化与基线相比的变化不超过 0.8 毫米。肩袖肌肉在整个外展过程中持续延长,每 5 mm 的远端化可达到 1.6 mm。这些趋势在患者的各种运动中均可观察到:结论:孤立的肱骨远端化导致肩胛平面外展所需的肌肉力量急剧增加。关节反作用力也相应增加。这些结果表明,与依赖肱骨远端化的方法相比,在不进行肱骨远端化的情况下产生三角肌张力的植入和手术策略可能会促进更好的主动运动范围和更持久的长期疗效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Isolated humeral distalization in reverse total shoulder arthroplasty: a biorobotic shoulder simulator study.

Background: Humeral distalization is inherent to reverse total shoulder arthroplasty (rTSA) and is often produced with concomitant humeral lateralization via the level of the humeral head cut, implant positioning, implant neck shaft angle, and polymer insert thickness. Biomechanical data on the isolated effects of humeral distalization remain limited but could be important to consider when optimizing postoperative rTSA shoulder function. This study investigated the effects of isolated humeral distalization on shoulder biomechanics using a biorobotic shoulder simulator.

Methods: Eight fresh-frozen cadaveric shoulders were tested using custom polymer inserts that translated the bearing surface 0, +5, +10, and +15 mm along the humeral stem axis, producing isolated distalization without lateralization. Specimens underwent passive elevation in the scapular plane with a static scapula to assess glenohumeral range of motion. Scapular plane abduction motion trajectories were then performed, driven by previously collected scapulothoracic and glenohumeral kinematics from rTSA patients. The effect of isolated distalization on passive elevation was tested using mixed-effects linear regression and the effect on muscle force, joint reaction force, and muscle excursion during active scapular-plane abduction was tested using statistical parametric mapping random effects analysis.

Results: Maximum passive scapular plane elevation increased with humeral distalization (4° per 5 mm distalization). During active elevation, deltoid and rotator cuff muscle forces, and joint reaction forces, increased up to 37% per 5 mm of distalization. Simulated deltoid muscle excursion was altered with increasing distalization but amounted to no more than 0.8 mm change from baseline per 5 mm of distalization. Rotator cuff muscles were consistently lengthened throughout abduction, up to 1.6 mm per 5 mm of distalization. These trends were observed across various patient motions.

Conclusions: Isolated humeral distalization caused dramatic increases in the muscle forces required to perform scapular-plane abduction. Joint reaction forces increased correspondingly. These results suggest that implant and surgical strategies to generate deltoid muscle tension without humeral distalization may promote better active range of motion and more durable long-term outcomes over approaches that rely on distalization.

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来源期刊
CiteScore
6.50
自引率
23.30%
发文量
604
审稿时长
11.2 weeks
期刊介绍: The official publication for eight leading specialty organizations, this authoritative journal is the only publication to focus exclusively on medical, surgical, and physical techniques for treating injury/disease of the upper extremity, including the shoulder girdle, arm, and elbow. Clinically oriented and peer-reviewed, the Journal provides an international forum for the exchange of information on new techniques, instruments, and materials. Journal of Shoulder and Elbow Surgery features vivid photos, professional illustrations, and explicit diagrams that demonstrate surgical approaches and depict implant devices. Topics covered include fractures, dislocations, diseases and injuries of the rotator cuff, imaging techniques, arthritis, arthroscopy, arthroplasty, and rehabilitation.
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