肩胛脊柱和喙突移植物在前肩不稳中的形态计量和生物力学比较。
Morphometric and Biomechanical Comparison of the Scapular Spine and Coracoid Graft in Anterior Shoulder Instability.
机构信息
Department of Orthopaedic Surgery, National Cheng Kung University Hospital, College of Medicine, National Cheng Kung University, Tainan, Taiwan.
Skeleton Materials and Bio-compatibility Core Lab, Research Center of Clinical Medicine, National Cheng Kung University Hospital, College of Medicine, National Cheng Kung University, Tainan, Taiwan.
出版信息
Am J Sports Med. 2022 Nov;50(13):3625-3634. doi: 10.1177/03635465221124277. Epub 2022 Oct 3.
BACKGROUND
The scapular spine has been described as a relatively new bone graft alternative used in glenoid augmentation. The classic Latarjet procedure, which transfers the coracoid as a graft, is regarded as the gold standard. The comparison of these 2 techniques has not been fully reported.
PURPOSE
To compare the anatomic and biomechanical properties of glenoid augmentation using scapular spine graft or coracoid graft.
STUDY DESIGN
Controlled laboratory study.
METHODS
The study used 20 fresh-frozen human cadaveric shoulders. A 25% anterior glenoid defect was created, and the specimens were divided randomly to receive glenoid augmentation by scapular spine or coracoid grafts. For both procedures, the grafts were secured to the glenoid defect with 2 screws. Morphometric data, including the glenoid articular area, amount of restoration, and graft dimensions, were obtained. A biomechanical test was conducted in a direct-loading scenario. The construct stiffness, cyclic displacement, and ultimate failure of each specimen were collected.
RESULTS
No significant difference was found in glenoid articular restoration between the scapular spine group and the coracoid group (31% vs 33%, respectively; = .311). Morphometric analysis indicated that coracoid grafts exhibited significantly greater thickness and height than scapular spine grafts. In biomechanical results, the scapular spine group exhibited significantly greater construct stiffness than the coracoid group (206.3 ± 58.8 vs 148.3 ± 76.0 N/mm, respectively; = .023). The average failure load in the scapular spine group was not significantly higher than that in the coracoid group. No significant differences in cyclic displacement were found between the 2 techniques.
CONCLUSION
In a simulated 25% anterior glenoid bony defect, a scapular spine graft was comparable with the classic Latarjet procedure in restoring the glenoid articular dimension and exhibited superior construct stiffness in a cadaveric model.
CLINICAL RELEVANCE
The scapular spine may serve as an alternative graft choice in glenoid augmentation surgery considering the amount of articular restoration and initial fixation stability.
背景
肩胛骨脊柱已被描述为一种相对较新的用于肩胛盂增强的骨移植物替代物。经典的 Latarjet 手术将喙突作为移植物转移,被认为是金标准。这两种技术的比较尚未得到充分报道。
目的
比较使用肩胛骨脊柱移植物或喙突移植物进行肩胛盂增强的解剖和生物力学特性。
研究设计
对照实验室研究。
方法
该研究使用了 20 个新鲜冷冻的人体尸体肩部。创建了一个 25%的前肩胛盂缺损,标本随机分为接受肩胛骨脊柱或喙突移植物增强的组。对于两种手术,将移植物用 2 颗螺钉固定到肩胛盂缺损处。获得包括肩胛盂关节面积、修复量和移植物尺寸在内的形态计量数据。在直接加载情况下进行生物力学测试。收集每个标本的结构刚度、循环位移和最终失效。
结果
肩胛骨脊柱组和喙突组之间的肩胛盂关节修复没有显著差异(分别为 31%和 33%; =.311)。形态计量分析表明,喙突移植物的厚度和高度明显大于肩胛骨脊柱移植物。在生物力学结果中,肩胛骨脊柱组的结构刚度显著大于喙突组(分别为 206.3 ± 58.8 和 148.3 ± 76.0 N/mm; =.023)。肩胛骨脊柱组的平均失效负荷并不显著高于喙突组。两种技术之间的循环位移无显著差异。
结论
在模拟的 25%前肩胛盂骨缺损中,肩胛骨脊柱移植物在恢复肩胛盂关节尺寸方面与经典的 Latarjet 手术相当,并且在尸体模型中表现出更高的结构刚度。
临床相关性
考虑到关节修复量和初始固定稳定性,肩胛骨脊柱可能是肩胛盂增强手术中替代移植物的选择。
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