A Flat Reconstruction of the Medial Collateral Ligament and Anteromedial Structures Restores Native Knee Kinematics: A Biomechanical Robotic Investigation.

IF 4.2 1区医学 Q1 ORTHOPEDICS American Journal of Sports Medicine Pub Date : 2024-10-03 DOI:10.1177/03635465241280984

Adrian Deichsel, Christian Peez, Michael J Raschke, Alina Albert, Mirco Herbort, Christoph Kittl, Christian Fink, Elmar Herbst

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Abstract

Background: Injuries of the superficial medial collateral ligament (sMCL) and anteromedial structures of the knee result in excess valgus rotation and external tibial rotation (ER) as well as tibial translation.

Purpose: To evaluate a flat reconstruction of the sMCL and anteromedial structures in restoring knee kinematics in the combined MCL- and anteromedial-deficient knee.

Study design: Controlled laboratory study.

Methods: Eight cadaveric knee specimens were tested in a 6 degrees of freedom robotic test setup. Force-controlled clinical laxity tests were performed with 200 N of axial compression in 0°, 30°, 60°, and 90° of flexion: 8 N·m valgus torque, 5 N·m ER torque, 89 N anterior tibial translation (ATT) force, and an anteromedial drawer test consisting of 89 N ATT force under 5 N·m ER torque. After determining the native knee kinematics, we transected the sMCL, followed by the deep medial collateral ligament (dMCL). Subsequently, a flat reconstruction of the sMCL with anteromedial limb, mimicking the function of the anteromedial corner, was performed. Mixed linear models were used for statistical analysis (P < .05).

Results: Cutting of the sMCL led to statistically significant increases in laxity regarding valgus rotation, ER, and anteromedial translation in all tested flexion angles (P < .05). ATT was significantly increased in all flexion angles but not at 60° after cutting of the sMCL. A combined instability of the sMCL and dMCL led to further increased knee laxity in all tested kinematics and flexion angles (P < .05). After reconstruction, the knee kinematics were not significantly different from those of the native state.

Conclusion: Insufficiency of the sMCL and dMCL led to excess valgus rotation, ER, ATT, and anteromedial tibial translation. A combined flat reconstruction of the sMCL and the anteromedial aspect restored this excess laxity to values not significantly different from those of the native knee.

Clinical relevance: The presented reconstruction might lead to favorable results for patients with MCL and anteromedial injuries with an anteromedial rotatory knee instability.

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内侧副韧带和前内侧结构的平面重建可恢复膝关节的原生运动学特性：生物力学机器人研究

背景：目的：评估平整重建膝关节内侧副韧带（sMCL）和膝关节前内侧结构对恢复合并内侧副韧带（MCL）和膝关节前内侧缺陷的膝关节运动学的作用：研究设计：实验室对照研究：在 6 自由度机器人测试装置中对 8 个尸体膝关节标本进行了测试。在屈曲 0°、30°、60° 和 90°，以 200 N 的轴向压力进行力控临床松弛测试：8 N-m外翻力矩、5 N-m内翻力矩、89 N胫骨前平移（ATT）力，以及由89 N ATT力和5 N-m内翻力矩组成的前内侧抽屉测试。在确定原生膝关节运动学特性后，我们切断了sMCL，然后是深内侧副韧带（dMCL）。随后，我们模仿前内侧角的功能，对带有前内侧肢体的 sMCL 进行了平面重建。采用混合线性模型进行统计分析（P < .05）：结果：在所有测试的屈曲角度下，切割 sMCL 会导致外翻旋转、ER 和前内侧平移方面的松弛度出现统计学意义上的显著增加（P < .05）。切断 sMCL 后，ATT 在所有屈曲角度都明显增加，但在 60° 时没有增加。合并 sMCL 和 dMCL 的不稳定性导致膝关节在所有测试的运动学和屈曲角度的松弛度进一步增加（P < .05）。重建后，膝关节运动学与原生状态下没有明显差异：结论：sMCL 和 dMCL 的不足会导致过多的外翻旋转、ER、ATT 和胫骨前内侧平移。对sMCL和前内侧进行联合平面重建，可将过度松弛恢复到与原生膝关节无明显差异的数值：临床相关性：对于膝关节前内侧旋转不稳定的 MCL 和前内侧损伤患者，该重建方法可能会带来良好的效果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

American Journal of Sports Medicine 医学-运动科学

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