The effects of parallel versus perpendicular electrode orientations on EMG amplitude and mean power frequency from the biceps brachii.

J Zuniga, T J Housh, C L Camic, C R Hendrix, M Mielke, R J Schmidt, G O Johnson
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Abstract

The purposes of this study were threefold: (1) to compare the isometric torque-related patterns of absolute and normalized electromyographic (EMG) amplitude and mean power frequency (MPF) responses for electrode orientations that were parallel and perpendicular to the muscle fibers; (2) to examine the influence of electrode orientation on mean absolute EMG amplitude and MPF values; and (3) to determine the effects of normalization on mean EMG amplitude and MPF values from parallel and perpendicular electrode orientations. Ten adults (5 men and 5 women mean +/- SD age = 23.8 +/- 2.3 years) volunteered to participate in the investigation. Two sets of bipolar surface EMG electrodes (20 mm center to center) were placed parallel and perpendicular to the muscle fibers over the biceps brachii. The subjects performed a maximal voluntary isometric contraction (MVIC) test followed by randomly ordered submaximal muscle actions in 10% increments from 10 to 90% MVIC. Paired t-tests indicated that absolute EMG amplitude values for the parallel electrode orientation were greater (p < 0.05) than those for the perpendicular orientation at all isometric torque levels except 10% MVIC For normalized EMG amplitude values, however, there were no significant mean differences between electrode orientations. There were also no differences between electrode orientations for absolute or normalized EMG MPF values. In 30% of the cases, different torque-related patterns of responses were observed between the parallel and perpendicular electrode orientations for the absolute and normalized EMG amplitude and MPF values. Therefore, the results of the present study support the need for standardizing electrode orientation to compare the pattern of responses for EMG amplitude and MPF values and normalizing EMG amplitude data to compare the mean values.

平行与垂直电极取向对肱二头肌肌电图振幅和平均工频的影响。
本研究的目的有三个:(1)比较平行和垂直于肌肉纤维的电极方向的绝对和归一化肌电图(EMG)振幅和平均工频(MPF)响应的等距扭矩相关模式;(2)研究电极取向对平均绝对肌电振幅和强积金值的影响;(3)确定标准化对平行和垂直电极方向的平均肌电振幅和MPF值的影响。10名成年人(5名男性和5名女性,平均+/- SD年龄= 23.8 +/- 2.3岁)自愿参加调查。两组双极表面肌电电极(中心到中心20mm)与肱二头肌肌纤维平行和垂直放置。受试者进行了最大自主等距收缩(MVIC)测试,随后进行了随机顺序的次最大肌肉运动,从MVIC的10%到90%以10%的增量进行。配对t检验表明,除10% MVIC外,在所有等距扭矩水平下,平行电极取向的绝对肌电信号振幅值均大于垂直电极取向的绝对肌电信号振幅值(p < 0.05)。绝对或标准化EMG强积金值的电极取向也没有差异。在30%的病例中,在平行和垂直电极取向之间,观察到绝对和归一化肌电振幅和MPF值的不同扭矩相关响应模式。因此,本研究结果支持对电极取向进行标准化,以比较肌电信号振幅和强积金值的响应模式,并对肌电信号振幅数据进行规范化,以比较平均值。
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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