Influence of the base of support widths on postural control and feet loading symmetry during squat – preliminary study

IF 0.8 4区 医学 Q4 BIOPHYSICS
Justyna Kędziorek, M. Błażkiewicz
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引用次数: 0

Abstract

Purpose: The symmetry of feet loading and adequate postural control are crucial aspects of proper squat performance. The study aimed to evaluate the effect of various stance widths during squat on postural control and symmetry of feet loading. Methods: Thirty healthy individuals participated in this study. Each participant performed one type of squat with a narrow stance (NS), hip stance (HS) and wide stance (WS). Results: A significantly higher value of CoP path length, the velocity of sways and Area95 were obtained for the WS squat compared to NS and HS. In addition, the wide feet setting significantly affected not only the feet loading symmetry but also the strategy (high LyE), the amount of irregularities (high SampEn) and the CoP time-series roughness complexity (high FD). It has been shown that as the base of support grew, the asymmetry index grew. Conclusions: The wide squat is less stable, requiring more complex postural control behavior and more flexibility. Performing this squat significantly shifts the pressure to the dominant limb.
深蹲时支撑底宽度对姿势控制和足部负荷对称性影响的初步研究
目的:对称的脚负荷和适当的姿势控制是正确的深蹲性能的关键方面。本研究旨在探讨深蹲时不同姿势宽度对姿势控制及足部负荷对称性的影响。方法:30名健康个体参加本研究。每个参与者进行一种蹲姿,包括窄站姿(NS)、髋部站姿(HS)和宽站姿(WS)。结果:与NS和HS相比,WS深蹲的CoP路径长度、摇摆速度和Area95值明显更高。此外,宽脚设置不仅显著影响足部加载对称性,还显著影响策略(高LyE)、不规则量(高SampEn)和CoP时间序列粗糙度复杂度(高FD)。结果表明,随着支撑基底的增大,不对称指数也随之增大。结论:宽蹲的稳定性较差,需要更复杂的姿势控制行为和更大的柔韧性。做这个深蹲可以明显地将压力转移到主肢。
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来源期刊
Acta of bioengineering and biomechanics
Acta of bioengineering and biomechanics BIOPHYSICS-ENGINEERING, BIOMEDICAL
CiteScore
2.10
自引率
10.00%
发文量
0
期刊介绍: Acta of Bioengineering and Biomechanics is a platform allowing presentation of investigations results, exchange of ideas and experiences among researchers with technical and medical background. Papers published in Acta of Bioengineering and Biomechanics may cover a wide range of topics in biomechanics, including, but not limited to: Tissue Biomechanics, Orthopedic Biomechanics, Biomaterials, Sport Biomechanics.
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