训练与未训练运动员单、多关节肌肉功能及神经驱动的比较

IF 0.6 4区医学 Q4 ENGINEERING, BIOMEDICAL

Isokinetics and Exercise Science Pub Date : 2021-01-15 DOI:10.3233/IES-203225

K. Mehmet

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引用次数: 0

摘要

背景:在运动员和未经训练的个体中，关于单次和多次关节运动的力发展速率(RFD)特征以及机电延迟(EMD)值的知识不足。目的:比较训练有素的运动员和未训练的人的单关节和多关节功能和神经驱动。方法:8名训练有素的运动员和10名未经训练的个人自愿参加研究。在与单关节和多关节相关的腿压和膝关节伸展时，评估神经肌肉在爆发性和最大自主等距收缩时的表现。在5个50ms的时间窗内测量8块下肢浅表肌的爆发力和表面肌电图，并分别归一化为最大自主力时的峰值力和肌电活动。EMD是由爆发性自发收缩(EVC)测定的。结果:经训练的运动员在伸直膝关节时的绝对力、最大自主力和EVC有显著性差异(p< 0.01)，而EVC的相对力在5个时间点均大于未经训练的运动员(p< 0.05)。结论:在两种运动中，训练有素的运动员和未经训练的个体在爆发力上的差异可能是由组内不同水平的肌肉激活来解释的，这归因于两种运动中双关节肌肉功能的变化。

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Comparison of single and multiple joint muscle functions and neural drive of trained athletes and untrained individuals

BACKGROUND: There is insufficient knowledge about the rate of force development (RFD) characteristics over both single and multiple joint movements and the electromechanical delay (EMD) values obtained in athletes and untrained individuals. OBJECTIVE: To compare single and multiple joint functions and the neural drive of trained athletes and untrained individuals. METHODS: Eight trained athletes and 10 untrained individuals voluntarily participated to the study. The neuromuscular performance was assessed during explosive and maximum voluntary isometric contractions during leg press and knee extension related to single and multiple joint. Explosive force and surface electromyography of eight superficial lower limb muscles were measured in five 50-ms time windows from their onset, and normalized to peak force and electromyography activity at maximum voluntary force, respectively. The EMD was determined from explosive voluntary contractions (EVC’s). RESULTS: The results showed that there were significant differences in absolute forces during knee extension maximum voluntary force and EVC’s (p< 0.01) while trained athletes achieved greater relative forces than untrained individuals of EVC at all five time points (p< 0.05). CONCLUSIONS: The differences in explosive performance between trained athletes and untrained individuals in both movements may be explained by different levels of muscle activation within groups, attributed to variation in biarticular muscle function over both activities.

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来源期刊

Isokinetics and Exercise Science 医学-工程：生物医学

CiteScore

1.20

自引率

14.30%

发文量

审稿时长

>12 weeks

期刊介绍： Isokinetics and Exercise Science (IES) is an international journal devoted to the study of theoretical and applied aspects of human muscle performance. Since isokinetic dynamometry constitutes the major tool in this area, the journal takes a particular interest in exploring the considerable potential of this technology. IES publishes studies associated with the methodology of muscle performance especially with respect to the issues of reproducibility and validity of testing, description of normal and pathological mechanical parameters which are derivable from muscle testing, applications in basic research topics such as motor learning paradigms and electromyography. The journal also publishes studies on applications in clinical settings and technical aspects of the various measurement systems employed in human muscle performance research. The journal welcomes submissions in the form of research papers, reviews, case studies and technical reports from professionals in the fields of sports medicine, orthopaedic and neurological rehabilitation and exercise physiology.