Effects of Posterior Cruciate Ligament Deficient on Biomechanics of Knee's Principal Ligaments at Different Flexion Angles

机译：后交叉韧带不足对膝关节不同屈曲角度主韧带生物力学的影响

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To investigate the response of posterior cruciate ligament rupture on the biomechanics of other principal ligaments, the MRI images of normal human knee at various flexion angles(0¡ã,25¡ã,60¡ã and 80¡ã)were developed through SONATAMESTRO 1.5T and the intact and posterior cruciate ligament deficient knee models were built based on these images. Then three different loads were applied to these models for the finite element simulation to obtain the reaction force and stress state of the other three principal ligaments. The results show that:(1) ligaments'' tensions significantly changed at 0¡ãand 60¡ã flexion angles, and were more sensitive to flexion angles than load conditions; (2) a larger maximum von-Mises equivalent stress can be found at four flexion angles especially at 60¡ã.

机译：为了研究后交叉韧带破裂对其他主要韧带生物力学的响应，通过SONATAMESTRO 1.5建立了正常人膝在不同屈曲角度（0°，25°，60°和80°）的MRI图像。 T和基于这些图像建立完整和后交叉韧带不足的膝关节模型。然后将三个不同的载荷应用于这些模型进行有限元模拟，以获得其他三个主要韧带的反作用力和应力状态。结果表明：（1）韧带的张力在0°和60°屈曲角度发生明显变化，对屈曲角度的敏感程度大于载荷条件。（2）在四个弯曲角度，尤其是在60°时，可以发现更大的最大von-Mises等效应力。

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《2012 Third International Conference on Digital Manufacturing and Automation》|2012年|p.369- 372|共4页
会议地点 Guilin(CN)
作者
Gaolong Zhang; Rongying Huang; Hongguang Zheng; Yunfei Guo;
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正文语种 eng
中图分类自动化技术及设备;
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4. Effects of Posterior Cruciate Ligament Deficient on Biomechanics of Knee's Principal Ligaments at Different Flexion Angles [C] . Gaolong Zhang, Rongying Huang, Hongguang Zheng, International Conference on Digital Manufacturing Automation . 2012

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5. Posterior cruciate ligament (PCL) injury and repair: A biomechanical evaluation of the human knee joint under dynamic posterior loading; *kinematics and contact pressure measurements in normal, PCL deficient and PCL reconstructed knees. [D] . Balasubramanian, Sriram. 2006

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7. Ligament fixation in anterior cruciate ligament reconstruction: Comparison of clinical and biomechanical effects of knee joint angle [O] . Serdar Toy, Cenk Turgut 2020

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Effects of Posterior Cruciate Ligament Deficient on Biomechanics of Knee's Principal Ligaments at Different Flexion Angles

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