Dynamic joint and muscle forces during knee isokinetic exercise.

S H Wei
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Abstract

Isokinetic exercise has been commonly used in knee rehabilitation, conditioning and research in the past two decades. Although many investigators have used various experimental and theoretical approaches to study the muscle and joint force involved in isokinetic knee extension and flexion exercises, only a few of these studies have actually distinguished between the tibiofemoral joint forces and muscle forces. Therefore, the objective of this study was to specify, via an eletromyography(EMG)-driven muscle force model of the knee, the magnitude of the tibiofemoral joint and muscle forces acting during isokinetic knee extension and flexion exercises. Fifteen subjects ranging from 21 to 36 years of age volunteered to participate in this study. A Kin Com exercise machine (Chattecx Corporation, Chattanooga, TN, U.S.A.) was used as the loading device. An EMG-driven muscle force model was used to predict muscle forces, and a biomechanical model was used to analyze two knee joint constraint forces; compression and shear force. The methods used in this study were shown to be valid and reliable (r > 0.84 andp < 0.05). The effects on the tibiofemoral joint force during knee isokinetic exercises were compared with several functional activities that were investigated by earlier researchers. The muscle forces generated during knee isokinetic exercise were also obtained. Based on the findings obtained in this study, several therapeutic justifications for knee rehabilitation are proposed.

膝关节等速运动中的动态关节和肌肉力量。
近二十年来,等速运动已被广泛应用于膝关节康复、调理和研究。尽管许多研究者使用了各种实验和理论方法来研究等速膝关节伸展和屈曲运动中涉及的肌肉和关节力,但只有少数这些研究真正区分了胫股关节力和肌肉力。因此,本研究的目的是通过肌电图(EMG)驱动的膝关节肌力模型,明确在等速膝关节伸展和屈曲运动中胫股关节和肌肉力量的大小。15名年龄在21岁到36岁之间的受试者自愿参加了这项研究。使用Kin Com运动机(Chattecx Corporation, Chattanooga, TN, usa)作为加载装置。肌电驱动肌力模型用于预测肌力,生物力学模型用于分析两个膝关节的约束力;压缩和剪切力。本研究采用的方法是有效可靠的(r > 0.84, p < 0.05)。在膝关节等速运动中对胫股关节力的影响与早期研究人员研究的几种功能活动进行了比较。在膝关节等速运动中产生的肌肉力量也得到了。基于本研究的发现,提出了几种膝关节康复治疗的理由。
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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