运动学
尸体痉挛
脚踝
生物医学工程
模拟
膝关节屈曲
计算机科学
材料科学
医学
解剖
口腔正畸科
物理
经典力学
作者
Otto Müller,JiaHsuan Lo,Markus Wünschel,Christian Obloh,Nikolaus Wülker
出处
期刊:Biomedizinische Technik
[De Gruyter]
日期:2009-01-01
卷期号:54 (3): 142-149
被引量:55
摘要
Simulating knee movement under physiological muscle loading is a prerequisite in order to improve surgical treatment and rehabilitation techniques. An apparatus is presented which can simulate five knee muscles to control a definite amount of body weight using the ankle force as the target value for the control mechanism. The influence of different amounts of simulated ankle forces upon the knee movement was investigated. The apparatus was constructed in a closed kinetic chain design similar to the so-called Oxford rig. Three quadriceps muscles and two hamstring muscles were controlled by electrical servo motors via tendon clamps in order to adjust a target value for the simulated body weight. Three fresh frozen cadaveric specimens were used to validate the apparatus and to examine the difference between loaded and unloaded knee flexion from 10° to 90°. In one specimen, up to 250 N simulated ankle force could be achieved for a single leg knee flexion. Among the kinematic variables, tibial rotation was influenced the most when varying the amount of simulated body weight. Although the knee kinematics changed considerably with increasing simulated bodyweight, the shapes of the kinematic profiles remained similar, indicating that qualitative clinical insights can still be elucidated with partially (but reasonably) loaded knees.
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