Biosignal processing methods to explore the effects of side-dominance on patterns of bi- and unilateral standing stability in healthy young adults

脚踝 物理医学与康复 运动学 肌电图 平衡(能力) 偏侧性 医学 部队平台 地面反作用力 物理疗法 心理学 解剖 听力学 经典力学 物理
作者
János Négyesi,Bálint Petró,Diane Nabil Salman,Ahsan H. Khandoker,Péter Katona,Ziheng Wang,Anfal Ibrahim Sanqour Qambar Almaazmi,Tibor Hortobágyi,Mark Váczi,K. Rácz,Zsófia Pálya,László Grand,Rita M. Kiss,Ryoichi Nagatomi
出处
期刊:Frontiers in Physiology [Frontiers Media]
卷期号:13 被引量:10
标识
DOI:10.3389/fphys.2022.965702
摘要

We examined the effects of side-dominance on the laterality of standing stability using ground reaction force, motion capture ( MoCap ), and EMG data in healthy young adults. We recruited participants with strong right ( n = 15) and left ( n = 9) hand and leg dominance (side-dominance). They stood on one or two legs on a pair of synchronized force platforms for 50 s with 60 s rest between three randomized stance trials. In addition to 23 CoP -related variables, we also computed six MoCap variables representing each lower-limb joint motion time series. Moreover, 39 time- and frequency-domain features of EMG data from five muscles in three muscle groups were analyzed. Data from the multitude of biosignals converged and revealed concordant patterns: no differences occurred between left- and right-side dominant participants in kinetic, kinematic, or EMG outcomes during bipedal stance. Regarding single leg stance, larger knee but lower ankle joint kinematic values appeared in left vs right-sided participants during non-dominant stance. Left-vs right-sided participants also had lower medial gastrocnemius EMG activation during non-dominant stance. While right-side dominant participants always produced larger values for kinematic data of ankle joint and medial gastrocnemius EMG activation during non-dominant vs dominant unilateral stance, this pattern was the opposite for left-sided participants, showing larger values when standing on their dominant vs non-dominant leg, i.e., participants had a more stable balance when standing on their right leg. Our results suggest that side-dominance affects biomechanical and neuromuscular control strategies during unilateral standing.
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