运动(音乐)
运动范围
物理医学与康复
任务(项目管理)
运动学
运动(物理)
航程(航空)
计算机科学
节拍器
模拟
数学
心理学
人工智能
物理疗法
医学
声学
节奏
物理
工程类
系统工程
经典力学
航空航天工程
作者
José Pedro Correia,João R. Vaz,Erik Witvrouw,Sandro R. Freitas
出处
期刊:Motor Control
[Human Kinetics]
日期:2022-05-17
卷期号:26 (3): 465-476
被引量:1
摘要
Maintaining the range of motion in repetitive movement tasks is a crucial point since it directly influences the movement rate. Ensuring the movement amplitude can be reliably maintained when motor function is assessed by measuring the maximum movement rate is therefore a key consideration. However, the performed range of motion during such tasks is often not reported. This study aimed to determine whether individuals are able to maintain an intended range of motion during a knee flexion/extension maximum movement rate task in the absence of tactile and visual feedback. Twelve healthy male individuals performed knee flexion/extension at maximum speed for eight 10-s blocks in a 45° arc between 45° and 90°. The range of motion was monitored using a marker system and the movement rate was measured. The performed range of motion was not significantly different from the 45° arc during the task despite a 13.47% decrease in movement rate from the start to the end of the task. Nevertheless, there was only anecdotal evidence of no difference from 45° in most blocks, while on the second and seventh blocks, there was anecdotal evidence of differences in the Bayesian one-sample test. There was also no significant shift in the maximum flexion/extension angles throughout the task. Healthy male individuals were thus able to perform a consistent average predefined knee range of motion in a maximum movement rate task despite decreases in movement rate. This was achieved without constraint-inducing devices during the task, using only basic equipment and verbal feedback.
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