在双极骨丢失模型中,填充偏离轨道的Hill-Sachs损伤对于恢复盂肱关节生物力学稳定性是必要的。
Remplissage of an Off-track Hill-Sachs Lesion Is Necessary to Restore Biomechanical Glenohumeral Joint Stability in a Bipolar Bone Loss Model.
作者信息
Hartzler Robert U, Bui Christopher N H, Jeong Woong K, Akeda Masaki, Peterson Alex, McGarry Michelle, Denard Patrick J, Burkhart Stephen S, Lee Thay Q
机构信息
Burkhart Research Institute for Orthopaedics and The San Antonio Orthopaedic Group, San Antonio, Texas, U.S.A.
Orthopaedic Biomechanics Laboratory, VA Long Beach Healthcare System, and University of California, Irvine, Irvine, California, U.S.A.
出版信息
Arthroscopy. 2016 Dec;32(12):2466-2476. doi: 10.1016/j.arthro.2016.04.030. Epub 2016 Jul 16.
PURPOSE
To validate the glenoid track concept in a cadaveric bipolar bone loss model and to test whether "on-track" and "off-track" lesions can be stabilized with Bankart repair (BR) with or without Hill-Sachs remplissage (HSR).
METHODS
Eight fresh-frozen cadaveric shoulders were tested in a custom apparatus with passive axial rotation and then progressive translational loading (10 to 40 N) at mid-range (60°) and end-range external rotation (90°). Injury conditions included glenoid bone loss of 15% with on-track (15%) and off-track (30%) Hill-Sachs lesions. Repair conditions included BR with HSR and BR without HSR.
RESULTS
For on-track lesions, engagement occurred with translation testing in one shoulder (12.5%) at end-range rotation. After BR, engagement was prevented for this shoulder. For off-track lesions, engagement with translation testing occurred in 8 shoulders (100%) at end-range rotation and in 6 (75%) at mid-range rotation. After BR, engagement was prevented in 4 of 6 engaging shoulders (67%) at mid-range rotation but was prevented in zero of 8 (0%) at end-range rotation. Adding HSR prevented engagement in all 14 engaging shoulders with off-track lesions (100%). BR with HSR resulted in supraphysiological stiffness for off-track lesions at mid- and end-range rotation (13.3 N/m vs 7.0 N/m and 10.0 N/m vs 5.0 N/m, P = .0002) and for on-track lesions at end-range rotation (10.1 N/m vs 5.0 N/m, P = .0002). Stiffness of BR with HSR was not different from the intact shoulder for on-track lesions at mid-range rotation (7.2 N/m vs 7.0 N/m, P > .99).
CONCLUSIONS
The patterns of engagement of Hill-Sachs lesions with a 15% glenoid defect in this model give support to the glenoid track concept. BR plus remplissage resulted in supraphysiological shoulder stiffness but was necessary to prevent engagement of off-track bipolar bone lesions.
CLINICAL RELEVANCE
This biomechanical study provides evidence to aid in surgical decision making by examining the effects of bipolar bone loss and soft-tissue reconstruction on shoulder stability.
目的
在尸体双极骨缺损模型中验证关节盂轨迹概念,并测试“轨迹内”和“轨迹外”损伤能否通过Bankart修复术(BR)联合或不联合Hill-Sachs充填术(HSR)实现稳定。
方法
对8个新鲜冷冻尸体肩部在定制装置中进行测试,先进行被动轴向旋转,然后在60°(中位)和90°(终末位)外旋时进行逐步平移加载(10至40 N)。损伤情况包括15%的关节盂骨缺损伴轨迹内(15%)和轨迹外(30%)的Hill-Sachs损伤。修复情况包括BR联合HSR和BR不联合HSR。
结果
对于轨迹内损伤,在终末位旋转时,1个肩部(12.5%)在平移测试中出现嵌合。BR后,该肩部的嵌合被阻止。对于轨迹外损伤,在终末位旋转时,8个肩部(100%)在平移测试中出现嵌合,在中位旋转时6个肩部(75%)出现嵌合。BR后,中位旋转时6个出现嵌合的肩部中有4个(67%)的嵌合被阻止,但终末位旋转时8个肩部中没有一个(0%)的嵌合被阻止。添加HSR可防止所有14个出现嵌合的轨迹外损伤肩部(100%)出现嵌合。BR联合HSR导致轨迹外损伤在中位和终末位旋转时出现超生理硬度(13.3 N/m对7.0 N/m以及10.0 N/m对5.0 N/m,P = .0002),终末位旋转时轨迹内损伤也出现超生理硬度(10.1 N/m对5.0 N/m,P = .0002)。BR联合HSR在中位旋转时对于轨迹内损伤的硬度与完整肩部无差异(7.2 N/m对7.0 N/m,P > .99)。
结论
该模型中15%关节盂缺损情况下Hill-Sachs损伤的嵌合模式支持关节盂轨迹概念。BR加充填术导致肩部出现超生理硬度,但对于防止轨迹外双极骨损伤的嵌合是必要的。
临床意义
这项生物力学研究通过检查双极骨缺损和软组织重建对肩部稳定性的影响,为手术决策提供了证据。
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