落地时前交叉韧带力的模型预测

Model prediction of anterior cruciate ligament force during drop-landings.

作者信息

Pflum Mary A, Shelburne Kevin B, Torry Michael R, Decker Michael J, Pandy Marcus G

机构信息

Department of Kinesiology, University of Texas at Austin, Austin, TX, USA.

出版信息

Med Sci Sports Exerc. 2004 Nov;36(11):1949-58. doi: 10.1249/01.mss.0000145467.79916.46.

DOI:10.1249/01.mss.0000145467.79916.46

PMID:15514512

Abstract

PURPOSE

The aim of this study was to calculate and explain the pattern of force transmitted to the anterior cruciate ligament during soft-style drop-landings. We hypothesized that peak ACL loading is due to the anterior pull of the quadriceps on the tibia, as these muscles develop large eccentric forces upon impact.

METHODS

A three-dimensional model of the body was used to simulate drop-landing. The simulation was performed by entering into the model muscle excitation patterns based on experimental EMG. The input excitation patterns were modified to create a performance response of the model that matched experimental data. Joint angles, ground reaction forces, and muscle forces obtained from the landing simulation were then applied to a model of the lower limb that incorporated a three-dimensional model of the knee.

RESULTS

The model ACL was loaded only in the first 25% of the landing phase. Peak ACL force (approximately 0.4 BW) resulted from a complex interaction between the patellar tendon force, the compressive force acting at the tibiofemoral joint, and the force applied by the ground to the lower leg. The patellar tendon force and tibiofemoral contact force both applied significant anterior shear forces to the shank throughout the landing phase. These effects were modulated by another significant posterior shear force applied by the ground reaction, which served to limit the maximum force transmitted to the ACL.

CONCLUSION

The pattern of ACL force in drop-landing cannot be explained by the anterior pull of the quadriceps force alone.

摘要

目的

本研究的目的是计算并解释软式落地时传递至前交叉韧带的力的模式。我们假设前交叉韧带的峰值负荷是由于股四头肌对胫骨的前向拉力，因为这些肌肉在着地时会产生较大的离心力。

方法

使用人体三维模型模拟落地。通过基于实验肌电图输入模型肌肉兴奋模式来进行模拟。对输入的兴奋模式进行修改，以创建与实验数据匹配的模型性能响应。然后将从落地模拟中获得的关节角度、地面反作用力和肌肉力应用于包含膝关节三维模型的下肢模型。

结果

模型中的前交叉韧带仅在落地阶段的前25%受到负荷。前交叉韧带的峰值力（约为体重的0.4倍）是髌腱力、作用于胫股关节的压缩力以及地面施加于小腿的力之间复杂相互作用的结果。在整个落地阶段，髌腱力和胫股接触力均对小腿施加了显著的前向剪切力。这些影响受到地面反作用力施加的另一个显著后向剪切力的调节，该后向剪切力用于限制传递至前交叉韧带的最大力。

结论

落地时前交叉韧带的受力模式不能仅通过股四头肌的前向拉力来解释。

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落地时前交叉韧带力的模型预测

Model prediction of anterior cruciate ligament force during drop-landings.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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