动态双吊带增强术预防20%肩胛盂骨缺损的复发性肩关节前下脱位的前下移位:一项尸体生物力学研究
Dynamic Double-Sling Augmentation Prevents Anteroinferior Translation for Recurrent Anteroinferior Shoulder Dislocation With 20% Glenoid Bone Loss: A Cadaveric Biomechanical Study.
作者信息
Wang Liren, Kang Yuhao, Li Yufeng, Wu Chenliang, Jiang Jia, Yu Suiran, Zhao Jinzhong, Xie Guoming
机构信息
Department of Sports Medicine, Shanghai Jiao Tong University Affiliated Sixth People's Hospital, Shanghai.
School of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai, China.
出版信息
Arthroscopy. 2022 May;38(5):1433-1440. doi: 10.1016/j.arthro.2021.11.024. Epub 2021 Nov 25.
PURPOSE
To biomechanically compare the dynamic double-sling with single-sling augmentation using the conjoined tendon (CT) with 20% of an anteroinferior glenoid bone defect under the high loads in shoulders.
METHODS
With the shoulder in 60° of glenohumeral abduction and 60° of external rotation, the 12 shoulders stability was tested sequentially in 5 conditions: intact, 20% glenoid bone loss, Bankart repair, single-sling augmentation with the CT, and double-sling augmentation with both the CT and long head of the biceps tendon (LHBT). The anteroinferior humeral head (HH) translation force of 20N, 30N, 40N, 50N, or 60N was applied to determine the shoulder stability in each condition.
RESULTS
The total HH translation over 8.77 mm represented the anteroinferior shoulder instability (95% confidence interval of bone defect: 7.76-8.77 mm). A significant increase in anteroinferior HH translation was demonstrated after the creation of 20% glenoid bone defect under the 20N translational force (10.52 ± 0.71 mm). Structural failure after the Bankart repair and the single-sling augmentation under the 30N (9.84 ± 1.25 mm) and 40N (9.59 ± 0.66 mm) translational forces, respectively, were observed. The double-sling augmentation effectively prevented the anteroinferior HH translation under the translational force of less than 40N, and only half of the augmentation structure (8.25 ± 1.66 mm) had failed under the 50N translational forces.
CONCLUSION
In the absence of any Hill-Sachs lesion and when tested at 60° abduction and external rotation in shoulders with 20% glenoid bone defects, at time-zero, the double-sling augmentation strategy could effectively prevent anteroinferior translation when compared with the Bankart repair or the single-sling augmentation technique under all magnitudes of the translational force in biomechanical simulation. Nevertheless, none of the constructs restored the HH translation to the normal intact state.
CLINICAL RELEVANCE
Double-sling augmentation technique may represent a reliable option for preventing anteroinferior translation.
目的
在肩部高负荷情况下,对使用联合肌腱(CT)进行动态双吊带与单吊带增强修复20%肩胛盂前下骨缺损的方法进行生物力学比较。
方法
将肩部置于肱盂外展60°和外旋60°位,在5种情况下依次测试12个肩部的稳定性:完整状态、20%肩胛盂骨缺损、Bankart修复、使用CT进行单吊带增强修复以及使用CT和肱二头肌长头肌腱(LHBT)进行双吊带增强修复。施加20N、30N、40N、50N或60N的肱骨头前下(HH)平移力,以确定每种情况下的肩部稳定性。
结果
HH总平移超过8.77mm表示肩部前下不稳定(骨缺损的95%置信区间:7.76 - 8.77mm)。在20N平移力作用下制造20%肩胛盂骨缺损后,HH前下平移显著增加(10.52±0.71mm)。分别观察到在30N(9.84±1.25mm)和40N(9.59±0.66mm)平移力作用下,Bankart修复和单吊带增强修复后出现结构破坏。双吊带增强修复在小于40N的平移力作用下有效防止了HH前下平移,在50N平移力作用下只有一半的增强结构(8.25±1.66mm)发生破坏。
结论
在不存在任何Hill-Sachs损伤且在肩胛盂有20%骨缺损的肩部于60°外展和外旋位进行测试时,在生物力学模拟中,与Bankart修复或单吊带增强修复技术相比,在零时,双吊带增强修复策略在所有平移力大小情况下均能有效防止前下平移。然而,没有一种结构能将HH平移恢复到正常完整状态。
临床意义
双吊带增强修复技术可能是预防前下平移的可靠选择。
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