Isokinetic plantar flexion endurance. Reliability and validity of output/excitation measurements.

Scandinavian journal of rehabilitation medicine Pub Date : 2020-06-04 DOI:10.2340/1650197785174752

A. Fugl-Meyer, B. Gerdle, B. Eriksson, B. Jonsson

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引用次数: 27

Abstract

The reliability and validity of isokinetic measurement of plantar flexion endurance has been studied by a method previously described by us which utilizes simultaneous measurements of mechanical contractional work (CW) and integrated electromyogram (iEMG). The reliability was gauged by test/re-test with a two year's interval; while validity was assessed by myoelectric power spectrum analyses. The output/input balance (CW/iEMG) remained unchanged for the group as well as inter-individually. Changes in myoelectric power spectrum as function of number of contractions were clearly indicative of fatigue. Under the present conditions fatigue of fast twitch motor units may explain the rapid decreases in output and excitation followed by nearly steady state levels of all registered parameters. As is the case for non-fatigued isokinetic plantar flexions, the motor unit recruitment order appears quite stereotyped during plantar flexion fatigue. The findings of significantly lower mean power spectrum during the first part of each contraction than during the second part may support the size-principle described by Henneman.

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等速跖屈耐力。输出/励磁测量的可靠性和有效性。

通过我们先前描述的同时测量机械收缩功(CW)和综合肌电图(iEMG)的方法，研究了等速测量足底屈曲耐力的可靠性和有效性。信度以两年为间隔进行测试/再测试;通过肌电能谱分析评估有效性。输出/输入平衡(CW/iEMG)在群体和个体之间保持不变。肌电功率谱随收缩次数的变化清楚地表明疲劳。在目前的条件下，快速抽动运动单元的疲劳可以解释输出和激励的快速下降，随后所有记录参数的接近稳态水平。与非疲劳等速足底屈曲的情况一样，在足底屈曲疲劳期间，运动单元的招募顺序似乎相当刻板。每次收缩的第一部分的平均功率谱明显低于第二部分的结果可能支持Henneman描述的尺寸原理。

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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Scandinavian journal of rehabilitation medicine

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