Load Sharing of the Deep and Superficial Medial Collateral Ligaments, the Effect of a Partial Superficial Medial Collateral Injury, and Implications on ACL Load.

IF 4.2 1区 医学 Q1 ORTHOPEDICS American Journal of Sports Medicine Pub Date : 2024-07-01 Epub Date: 2024-05-31 DOI:10.1177/03635465241251462
Wouter Beel, Callahan Doughty, Thiago Vivacqua, Alan Getgood, Ryan Willing
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Abstract

Background: Injuries to the deep medial collateral ligament (dMCL) and partial superficial MCL (psMCL) can cause anteromedial rotatory instability; however, the contribution of each these injuries in restraining anteromedial rotatory instability and the effect on the anterior cruciate ligament (ACL) load remain unknown.

Purpose: To investigate the contributions of the different MCL structures in restraining tibiofemoral motion and to evaluate the load through the ACL after MCL injury, especially after combined dMCL/psMCL injury.

Study design: Controlled laboratory study.

Methods: Sixteen fresh-frozen human cadaveric knees were tested using a 6 degrees of freedom robotic simulator. Tibiofemoral kinematic parameters were recorded at 0°, 30°, 60°, and 90° of knee flexion for the following measurements: 8-N·m valgus rotation, 4-N·m external tibial rotation (ER), 4-N·m internal tibial rotation, and a combined 89-N anterior tibial translation and 4-N·m ER for both anteromedial rotation (AMR) and anteromedial translation (AMT). The kinematic parameters of the 3 different MCL injuries (dMCL; dMCL/psMCL; dMCL/superficial MCL (sMCL)) were recorded and reapplied either in an ACL-deficient joint (load sharing) or before and after cutting the ACL (ACL load). The loads were calculated by applying the principle of superposition.

Results: The dMCL had the largest effect on reducing the force/torque during ER, AMR, and AMT in extension and the psMCL injury at 30° to 90° of knee flexion (P < .05). In a comparison of the load through the ACL when the MCL was intact, the ACL load increased by 46% and 127% after dMCL injury and combined dMCL/psMCL injury, respectively, at 30° of knee flexion during ER. In valgus rotation, a significant increase in ACL load was seen only at 90° of knee flexion.

Conclusion: The psMCL injury made the largest contribution to the reduction of net force/torque during AMR/AMT at 30° to 90° of flexion. Concomitant dMCL/psMCL injury increased the ACL load, mainly during ER.

Clinical relevance: If a surgical procedure is being considered to treat anteromedial rotatory instability, then the procedure should focus on restoring sMCL function, as injury to this structure causes a major loss of the knee joint's capacity to restrain AMR/AMT.

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深层和浅层内侧副韧带的负荷分担、部分浅层内侧副韧带损伤的影响以及对前交叉韧带负荷的影响。
背景:深内侧副韧带(dMCL)和部分浅内侧副韧带(psMCL)的损伤可导致前内侧旋转不稳定;然而,这些损伤在抑制前内侧旋转不稳定方面的贡献以及对前十字韧带(ACL)负荷的影响仍不清楚。目的:研究不同的 MCL 结构在抑制胫骨股骨运动中的作用,并评估 MCL 损伤后,尤其是 dMCL/psMCL 联合损伤后通过前交叉韧带的负荷:研究设计:实验室对照研究:使用 6 自由度机器人模拟器对 16 个新鲜冷冻的人体尸体膝关节进行测试。记录膝关节屈曲 0°、30°、60° 和 90°时的胫股关节运动参数,并进行以下测量:8-N-m的外翻旋转、4-N-m的胫骨外旋(ER)、4-N-m的胫骨内旋,以及89-N的胫骨前平移和4-N-m的胫骨内旋(AMR)和胫骨前平移(AMT)。对 3 种不同 MCL 损伤(dMCL、dMCL/psMCL、dMCL/表层 MCL(sMCL))的运动学参数进行了记录,并在前交叉韧带缺损的关节中(负荷分担)或在切断前交叉韧带前后(前交叉韧带负荷)重新应用。负荷是通过叠加原理计算得出的:结果:在伸展时,dMCL 对减少 ER、AMR 和 AMT 时的力/力矩影响最大,而在膝关节屈曲 30° 至 90° 时,psMCL 损伤最大(P < .05)。在比较前交叉韧带的负荷时,当 MCL 完好无损时,膝关节屈曲 30° 时,前交叉韧带负荷在 dMCL 损伤和 dMCL/psMCL 联合损伤后分别增加了 46% 和 127%。在膝关节外翻时,只有在膝关节屈曲 90° 时前交叉韧带负荷才会明显增加:结论:在屈膝 30° 至 90° 的 AMR/AMT 过程中,psMCL 损伤对净力/力矩的减少贡献最大。同时出现的 dMCL/psMCL 损伤增加了前交叉韧带的负荷,主要是在 ER 期间:临床意义:如果考虑通过手术治疗前内侧旋转不稳定,那么手术应侧重于恢复sMCL的功能,因为该结构的损伤会导致膝关节抑制AMR/AMT的能力严重丧失。
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来源期刊
CiteScore
9.30
自引率
12.50%
发文量
425
审稿时长
3 months
期刊介绍: An invaluable resource for the orthopaedic sports medicine community, _The American Journal of Sports Medicine_ is a peer-reviewed scientific journal, first published in 1972. It is the official publication of the [American Orthopaedic Society for Sports Medicine (AOSSM)](http://www.sportsmed.org/)! The journal acts as an important forum for independent orthopaedic sports medicine research and education, allowing clinical practitioners the ability to make decisions based on sound scientific information. This journal is a must-read for: * Orthopaedic Surgeons and Specialists * Sports Medicine Physicians * Physiatrists * Athletic Trainers * Team Physicians * And Physical Therapists
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