Faculty of Health Sciences, University of Pretoria, Pretoria, South Africa; Department of Orthopaedic Surgery and Sports Medicine, Burjeel Hospital for Advanced Surgery, Dubai, United Arab Emirates.
University of Texas Health Science Center, San Antonio, Texas.
Arthroscopy. 2022 Mar;38(3):1003-1018. doi: 10.1016/j.arthro.2021.08.035. Epub 2021 Sep 8.
The purpose of this systematic review was to investigate variability in biomechanical testing protocols for laboratory-based studies using suture anchors for glenohumeral shoulder instability and SLAP lesion repair.
A systematic review of Medline, Embase, Scopus, and Google Scholar using Covidence software was performed for all biomechanical studies investigating labral-based suture anchor repair for shoulder instability and SLAP lesions. Clinical studies, technical notes or surgical technique descriptions, or studies treating glenoid bone loss or capsulorrhaphy were excluded. Risk of bias (ROB) was assessed with the ROBINS-I tool. Study quality was assessed with the Quality Appraisal for Cadaveric Studies. Heterogeneity was assessed with the I statistic.
A total of 41 studies were included. ROB was serious and critical in 27 studies, moderate in 13, and low in 1; 6 studies had high quality, 21 good quality, 10 moderate quality, 2 low quality, and 2 very low quality. Thirty-one studies used and 22 studies included cyclic loading. Angle of anchor insertion was reported by 33 studies. The force vector for displacement varied. The most common directions were perpendicular to the glenoid (n = 9), and anteroinferior or anterior (n = 8). The most common outcome measures were load to failure (n = 35), failure mode (n = 23), and stiffness (n = 21). Other outcome measures included load at displacement, displacement at failure, tensile load at displacement, translation, energy absorbed, cycles to failure, contact pressure, and elongation.
This systematic review demonstrated a clear lack of consistency in those cadaver studies that investigated biomechanical properties after surgical repair with suture anchors for shoulder instability and SLAP lesions. Testing methods between studies varied substantially with no universally applied standard for preloading, load to failure and cyclic loading protocols, insertion angles of suture anchors, or direction of loading. To allow comparability between studies standardization of testing protocols is strongly recommended.
本系统评价旨在研究使用缝线锚钉治疗肩锁关节不稳定和 SLAP 病变的实验室基础研究中生物力学测试方案的变异性。
使用 Covidence 软件对 Medline、Embase、Scopus 和 Google Scholar 进行系统评价,以调查所有研究肩锁关节不稳定和 SLAP 病变的基于实验室的缝线锚钉修复的生物力学研究。排除临床研究、技术说明或手术技术描述,或治疗肩盂骨丢失或囊切开术的研究。使用 ROBINS-I 工具评估偏倚风险(ROB)。使用尸体研究质量评估工具评估研究质量。使用 I 统计评估异质性。
共纳入 41 项研究。27 项研究的 ROB 为严重和关键,13 项研究为中度,1 项研究为低度;6 项研究为高质量,21 项为良好质量,10 项为中等质量,2 项为低质量,2 项为极低质量。31 项研究使用了循环加载,22 项研究包含了循环加载。33 项研究报告了锚钉插入角度。位移的力向量不同。最常见的方向垂直于肩盂(n=9),前下或前(n=8)。最常见的结果测量指标是失效负荷(n=35)、失效模式(n=23)和刚度(n=21)。其他结果测量指标包括位移时的负荷、失效时的位移、位移时的拉伸负荷、平移、吸收的能量、失效循环、接触压力和伸长率。
本系统评价清楚地表明,在研究使用缝线锚钉治疗肩锁关节不稳定和 SLAP 病变的手术修复后生物力学特性的尸体研究中,存在明显的不一致性。研究之间的测试方法差异很大,没有普遍适用的预加载、失效负荷和循环加载方案、缝线锚钉插入角度或加载方向的标准。为了使研究之间具有可比性,强烈建议标准化测试方案。
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