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解剖型和反置式肩关节置换术的生物力学

Biomechanics of anatomic and reverse shoulder arthroplasty.

作者信息

Goetti Patrick, Denard Patrick J, Collin Philippe, Ibrahim Mohamed, Mazzolari Adrien, Lädermann Alexandre

机构信息

Division of Orthopaedics and Trauma Surgery, Centre Hospitalier |Universitaire Vaudois, Lausanne, Switzerland.

Denard Department of Orthopaedic & Rehabilitation, Oregon Health & Science University, Portland, Oregon, United States.

出版信息

EFORT Open Rev. 2021 Oct 19;6(10):918-931. doi: 10.1302/2058-5241.6.210014. eCollection 2021 Oct.

DOI:10.1302/2058-5241.6.210014
PMID:34760291
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8559568/
Abstract

The biomechanics of the shoulder relies on careful balancing between stability and mobility. A thorough understanding of normal and degenerative shoulder anatomy is necessary, as the goal of anatomic total shoulder arthroplasty is to reproduce premorbid shoulder kinematics.With reported joint reaction forces up to 2.4 times bodyweight, failure to restore anatomy and therefore provide a stable fulcrum will result in early implant failure secondary to glenoid loosening.The high variability of proximal humeral anatomy can be addressed with modular stems or stemless humeral components. The development of three-dimensional planning has led to a better understanding of the complex nature of glenoid bone deformity in eccentric osteoarthritis.The treatment of cuff tear arthropathy patients was revolutionized by the arrival of Grammont's reverse shoulder arthroplasty. The initial design medialized the centre of rotation and distalized the humerus, allowing up to a 42% increase in the deltoid moment arm.More modern reverse designs have maintained the element of restored stability but sought a more anatomic postoperative position to minimize complications and maximize rotational range of motion. Cite this article: 2021;6:918-931. DOI: 10.1302/2058-5241.6.210014.

摘要

肩部的生物力学依赖于稳定性和灵活性之间的精确平衡。全面了解正常和退变的肩部解剖结构是必要的,因为解剖型全肩关节置换术的目标是重现病前的肩部运动学。据报道,关节反应力可达体重的2.4倍,未能恢复解剖结构并因此提供稳定支点将导致继发于关节盂松动的早期植入物失败。肱骨近端解剖结构的高度变异性可通过模块化柄或无柄肱骨组件来解决。三维规划的发展使人们对偏心性骨关节炎中关节盂骨畸形的复杂性质有了更好的理解。Grammont反肩置换术的出现彻底改变了肩袖撕裂性关节病患者的治疗方式。最初的设计将旋转中心内移并使肱骨远移,使三角肌力矩臂增加了42%。更现代的反肩设计保留了恢复稳定性的要素,但寻求更符合解剖结构的术后位置,以尽量减少并发症并最大化旋转活动范围。引用本文:2021;6:918 - 931。DOI:10.1302/2058 - 5241.6.210014。

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