在年轻男性等长背屈过程中,足部而非支配性影响力量稳定性。

IF 2 4区 医学 Q3 NEUROSCIENCES
Ivana Petrovic , Ioannis G. Amiridis , Theodoros Kannas , Zoi Tsampalaki , Ales Holobar , Chrysostomos Sahinis , Eleftherios Kellis , Daniel Stankovic , Roger M. Enoka
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引用次数: 0

摘要

本研究的目的是评估足性和优势对背屈过程中最大力量、力量波动和神经驱动的潜在影响。15名左脚(LF)和15名右脚(RF)年轻人用双腿背屈在5个目标力(5、10、20、40和60%MVC)下进行了2次最大自主收缩(MVC)和3次稳定的次最大等长收缩。采用高密度肌电图(EMG)记录胫前肌运动单位(MU)的放电特征。MVC力和EMG振幅(均方根)在两条腿和两组之间相似(p>0.05)。力波动(变异系数,力的CoV)、MU的平均放电率、放电变异性(棘间期的CoV)和神经驱动的变异性(滤波累积棘突序列的标准差)更大(p
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Footedness but not dominance influences force steadiness during isometric dorsiflexion in young men

The aim of the study was to assess the potential influence of footedness and dominance on maximal force, force fluctuations and neural drive during dorsiflexion. Fifteen left-footed (LF) and fifteen right-footed (RF) young adults performed 2 maximal voluntary contractions (MVC) and 3 steady submaximal isometric contractions at five target forces (5, 10, 20, 40 and 60% MVC) with the dorsiflexors of both legs. High-density electromyography (EMG) was used to record the discharge characteristics of motor units (MUs) of Tibialis Anterior. MVC force and EMG amplitude (root mean square) were similar between the two legs and groups (p > 0.05). Force fluctuations (Coefficient of Variation, CoV for force), mean discharge rate of MUs, discharge variability (CoV of interspike interval), and variability in neural drive (standard deviation of filtered cumulative spike train) were greater (p < 0.05) and the input–output gain of the MUs (ΔDR/ΔF) was lower (p < 0.05) for the LF relative to the RF group. The differences in force fluctuations during steady contractions with the dorsiflexors were associated with footedness but not with dominance. They reflect greater variability in motor neuron output, as suggested by coefficient of variation for interspike interval (independent input) and the standard deviation of the smoothed discharge times (common input).

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来源期刊
CiteScore
4.70
自引率
8.00%
发文量
70
审稿时长
74 days
期刊介绍: Journal of Electromyography & Kinesiology is the primary source for outstanding original articles on the study of human movement from muscle contraction via its motor units and sensory system to integrated motion through mechanical and electrical detection techniques. As the official publication of the International Society of Electrophysiology and Kinesiology, the journal is dedicated to publishing the best work in all areas of electromyography and kinesiology, including: control of movement, muscle fatigue, muscle and nerve properties, joint biomechanics and electrical stimulation. Applications in rehabilitation, sports & exercise, motion analysis, ergonomics, alternative & complimentary medicine, measures of human performance and technical articles on electromyographic signal processing are welcome.
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