在尸体模型模拟着陆过程中,内侧副韧带损伤和重建膝关节前交叉韧带应变的比较。
Comparison of ACL Strain in the MCL-Deficient and MCL-Reconstructed Knee During Simulated Landing in a Cadaveric Model.
作者信息
Mancini Eric J, Kohen Robert, Esquivel Amanda O, Cracchiolo Allison M, Lemos Stephen Edward
机构信息
DMC Sports Medicine, Detroit Medical Center, Warren, Michigan, USA.
出版信息
Am J Sports Med. 2017 Apr;45(5):1090-1094. doi: 10.1177/0363546516685312. Epub 2017 Feb 6.
BACKGROUND
Noncontact anterior cruciate ligament (ACL) injury after valgus landing has been reported and studied biomechanically. However, the role of the medial collateral ligament (MCL) in dissipating these forces has not been fully elucidated. Purpose/Hypothesis: The purpose of this study was to investigate the role that the MCL plays in ACL strain during simulated landing. The hypothesis was that ACL strain would increase significantly in MCL-incompetent knees compared with the native knee and that reconstructing the MCL would return the values to those of the intact knee.
STUDY DESIGN
Controlled laboratory study.
METHODS
Eight fresh-frozen human cadaveric knees were used in this study. A materials testing machine applied a force of 2× body weight over 60 milliseconds to simulate landing after a jump. The knees were tested in 12 loading conditions, consisting of full extension or 15° of flexion combined with 7° of valgus or neutral alignment while the tibia was in external rotation, neutral rotation, or internal rotation. This test procedure was repeated on each specimen with the MCL transected and reconstructed. The superficial and deep MCL was transected along with the posterior oblique ligament, which was thought to simulate a worst case scenario. The MCL was reconstructed by use of semitendinosus and gracilis tendon grafts.
RESULTS
During internal rotation at 0° of flexion and 0° of valgus, both the intact ( P = .005) and the reconstructed ( P = .004) MCL states placed significantly lower strain on the ACL than did the transected MCL. The reconstructed MCL state at 0° of flexion and 7° of valgus ( P = .049) along with 15° of flexion and 0° of valgus ( P = .020) also placed significantly lower strain on the ACL than did the transected MCL. For external rotation testing at 0° of flexion and 7° of valgus, the reconstructed MCL state placed significantly lower strain on the ACL than did the transected MCL ( P = .039). Finally, during neutral rotation, the ACL strain at 0° of valgus and 0° of flexion, and at 7° of valgus and 0° of flexion was significantly lower for the MCL-intact groups ( P < .028) and MCL-reconstructed groups ( P < .016) than the MCL-transected groups.
CONCLUSION
The current findings demonstrate that during valgus landing, a knee with an incompetent MCL puts the ACL under increased strain. These values are highest in full extension with the tibia in internal and neutral rotation. This increased strain can be reduced to baseline levels with reconstruction.
CLINICAL RELEVANCE
A knee with an incompetent MCL puts the ACL under increased strain. Once the MCL has healed in an elongated manner, MCL reconstruction should be considered.
背景
已有关于外翻落地后非接触性前交叉韧带(ACL)损伤的报道,并对其进行了生物力学研究。然而,内侧副韧带(MCL)在消散这些力量中所起的作用尚未完全阐明。目的/假设:本研究的目的是探讨MCL在模拟落地过程中对ACL应变的作用。假设是,与正常膝关节相比,MCL功能不全的膝关节中ACL应变会显著增加,并且重建MCL会使数值恢复到完整膝关节的水平。
研究设计
对照实验室研究。
方法
本研究使用了8个新鲜冷冻的人体尸体膝关节。一台材料试验机在60毫秒内施加2倍体重的力,以模拟跳跃后的落地。膝关节在12种加载条件下进行测试,包括完全伸展或15°屈曲,同时伴有7°外翻或中立位对线,而胫骨处于外旋、中立旋转或内旋状态。对每个标本在横断和重建MCL后重复此测试程序。浅、深MCL与后斜韧带一起横断,认为这模拟了最坏的情况。使用半腱肌和股薄肌腱移植物重建MCL。
结果
在0°屈曲和0°外翻且胫骨内旋时,完整(P = 0.005)和重建(P = 0.004)MCL状态下ACL的应变均显著低于横断MCL时。0°屈曲和7°外翻(P = 0.049)以及15°屈曲和0°外翻(P = 0.020)时的重建MCL状态下ACL的应变也显著低于横断MCL时。在0°屈曲和7°外翻的外旋测试中,重建MCL状态下ACL的应变显著低于横断MCL时(P = 0.039)。最后,在中立旋转过程中,MCL完整组(P < 0.028)和MCL重建组(P < 0.016)在0°外翻和0°屈曲以及7°外翻和0°屈曲时的ACL应变显著低于MCL横断组。
结论
目前的研究结果表明,在外翻落地过程中,MCL功能不全的膝关节会使ACL承受更大的应变。这些数值在胫骨处于内旋和中立旋转的完全伸展时最高。通过重建可将这种增加的应变降低至基线水平。
临床意义
MCL功能不全的膝关节会使ACL承受更大的应变。一旦MCL以延长的方式愈合,应考虑进行MCL重建。
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