优化反向全肩关节置换术中的肌肉-肌腱长度:对手术和植入物设计相关参数的评估

IF 4.4 1区 医学 Q1 ORTHOPEDICS
Jay M Levin, Fabrizio Gobbi, Marcus G Pandy, Giovanni Di Giacomo, Mark A Frankle
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引用次数: 0

摘要

背景:在反向全肩关节置换术(RTSA)中,如何优化横跨盂肱关节的肌肉功能仍存在争议。目前的研究使用了一个肩部几何模型,系统地检查了手术位置和植入物设计参数,以确定哪种 RTSA 配置最能再现三角肌和肩袖的原生肌肉肌腱长度:开发并调整了盂肱关节的几何模型,以代表小、中和大的肩部。评估了三角肌前部、三角肌中部、三角肌后部和冈上肌从0°到90°的肩胛骨长度;肩胛下肌从0°到60°的内旋(IR)和0°到60°的肩胛骨长度;冈下肌从0°到60°的外旋(ER)和0°到60°的肩胛骨长度;小圆肌从0°到60°的ER和90°的肩胛骨长度。RTSA 设计采用以下参数进行虚拟植入:(1) 手术置放时,关节盂位置居中或偏下,肱骨相对于解剖颈平面偏移 0、5 或 10 mm;(2) 植入物设计包括关节盂大小为 30、36 或 42 mm,关节盂偏侧 0、5 或 10 mm,肱骨颈轴角度为 135°、145° 或 155°。因此,共分析了 486 个 RTSA-肩部尺寸组合。线性回归评估了参数与各肌肉-肌腱长度与原生长度的变化之间的关联强度:结果:最接近恢复小肩解剖肌肉-肌腱长度的配置是30毫米的盂垫,位置居中,盂外侧化5毫米,肱骨偏移0毫米,颈轴角135°。对于中型肩,相应的组合为 36 毫米、居中、5 毫米、0 毫米和 135°。对于大型肩关节,则为 30 毫米、居中、10 毫米、0 毫米和 135°。与恢复原生肌肉-肌腱长度相关的最重要植入物设计参数是颈-轴角,颈-轴角135°更受青睐(β = 0.568 到 0.657,p < 0.001)。与恢复原生肌腱长度相关的最重要手术参数是肱骨偏移量,在解剖颈平面放置肱骨臼更受欢迎(β = 0.441 至 0.535,p < 0.001):结论:较小的侧向盂、置于解剖颈平面的肱骨臼和解剖135°颈轴角的组合最能恢复RTSA患者的原生三角肌和肩袖肌腱长度:这项关于 RTSA 中手术和植入物因素的研究强调了恢复三角肌和肩袖肌腱原生长度的最佳配置,这对手术技术和植入物的选择有直接影响。此外,它还展示了对肌肉-肌腱长度影响最大的手术和植入因素,可用于帮助术中决策。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimizing Muscle-Tendon Lengths in Reverse Total Shoulder Arthroplasty: Evaluation of Surgical and Implant-Design-Related Parameters.

Background: Optimizing the function of muscles that cross the glenohumeral articulation in reverse total shoulder arthroplasty (RTSA) is controversial. The current study used a geometric model of the shoulder to systematically examine surgical placement and implant-design parameters to determine which RTSA configuration most closely reproduces native muscle-tendon lengths of the deltoid and rotator cuff.

Methods: A geometric model of the glenohumeral joint was developed and adjusted to represent small, medium, and large shoulders. Muscle-tendon lengths were assessed for the anterior deltoid, middle deltoid, posterior deltoid, and supraspinatus from 0 to 90° of scaption; for the subscapularis from 0° to 60° of internal rotation (IR) and 0° to 60° of scaption; for the infraspinatus from 0° to 60° of external rotation (ER) and 0° to 60° of scaption; and for the teres minor from 0° to 60° of ER at 90° of scaption. RTSA designs were virtually implanted using the following parameters: (1) surgical placement with a centered or inferior glenosphere position and a humeral offset of 0, 5, or 10 mm relative to the anatomic neck plane, (2) implant design involving a glenosphere size of 30, 36, or 42 mm, glenosphere lateralization of 0, 5, or 10 mm, and humeral neck-shaft angle of 135°, 145°, or 155°. Thus, 486 RTSA-shoulder size combinations were analyzed. Linear regression assessed the strength of association between parameters and the change in each muscle-tendon length from the native length.

Results: The configuration that most closely restored anatomic muscle-tendon lengths in a small shoulder was a 30-mm glenosphere with a centered position, 5 mm of glenoid lateralization, 0 mm of humeral offset, and a 135° neck-shaft angle. For a medium shoulder, the corresponding combination was 36 mm, centered, 5 mm, 0 mm, and 135°. For a large shoulder, it was 30 mm, centered, 10 mm, 0 mm, and 135°. The most important implant-design parameter associated with restoration of native muscle-tendon lengths was the neck-shaft angle, with a 135° neck-shaft angle being favored (β = 0.568 to 0.657, p < 0.001). The most important surgical parameter associated with restoration of native muscle-tendon lengths was humeral offset, with a humeral socket placed at the anatomic neck plane being favored (β = 0.441 to 0.535, p < 0.001).

Conclusions: A combination of a smaller, lateralized glenosphere, a humeral socket placed at the anatomic neck plane, and an anatomic 135° neck-shaft angle best restored native deltoid and rotator cuff muscle-tendon lengths in RTSA.

Clinical relevance: This study of surgical and implant factors in RTSA highlighted optimal configurations for restoration of native muscle-tendon lengths of the deltoid and rotator cuff, which has direct implications for surgical technique and implant selection. Additionally, it demonstrated the most influential surgical and implant factors with respect to muscle-tendon lengths, which can be used to aid intraoperative decision-making.

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来源期刊
CiteScore
8.90
自引率
7.50%
发文量
660
审稿时长
1 months
期刊介绍: The Journal of Bone & Joint Surgery (JBJS) has been the most valued source of information for orthopaedic surgeons and researchers for over 125 years and is the gold standard in peer-reviewed scientific information in the field. A core journal and essential reading for general as well as specialist orthopaedic surgeons worldwide, The Journal publishes evidence-based research to enhance the quality of care for orthopaedic patients. Standards of excellence and high quality are maintained in everything we do, from the science of the content published to the customer service we provide. JBJS is an independent, non-profit journal.
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