Increased hip adductor activation during sit-to-stand improves muscle activation timing and rising-up mechanics in individuals with hemiparesis

美第斯 偏瘫 收肌 肌电图 地面反作用力 生物力学 物理医学与康复 医学 解剖 外科 物理 运动学 经典力学 病变
作者
Wei‐Chun Hsu,Chia‐Lo Chang,Yi‐Ying Lin,Kuan‐Nien Chou,Fu-Chi Yang,Li-Shan Chang,Ying-Yi Liao,Kuei-Chen Lee
出处
期刊:Journal of Electromyography and Kinesiology [Elsevier BV]
卷期号:69: 102741-102741
标识
DOI:10.1016/j.jelekin.2022.102741
摘要

Long sit-to-stand (STS) time has been identified as a feature of impaired functional mobility. The changes in biomechanics of STS performance with simultaneous hip adductor contraction have not been studied, which may limit indications for use of hip adductor activation during STS training. Ten individuals with hemiplegia (mean age 61.8 years, injury time 29.8 ± 15.2 months) performed the STS with and without squeezing a ball between two legs. The joint moments, ground reaction force (GRF), chair reaction force and movement durations and temporal index of electromyography were calculated from the control condition for comparison with those from the ball squeezing condition. Under the squeeze condition, reduced peak vertical GRF during the ascension phase with increased loading rate was observed in the nonparetic limb, and the peak knee extensor moment occurred earlier in the paretic. Earlier activation of tibialis anterior and gluteus maximus, and gluteus medius were found in squeeze STS. Squeezing a ball between limbs during STS increased the contraction timing of tibialis anterior, gluteus maximus, gluteus medius, and soleus as well as a more symmetric rising mechanics encourage the use of squeezing a ball between limbs during STS for individuals with hemiparesis.

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