Lower Extremity Electromyography During Submaximal Squats with Varying Moments of Inertia.

IF 0.9 4区医学 Q4 BIOPHYSICS

Aerospace medicine and human performance Pub Date : 2025-02-01 DOI:10.3357/AMHP.6373.2025

Clara J Mitchinson, John Caruso, Stuart Best, Lance Bollinger

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Abstract

Introduction: Spaceflight impairs muscle size, strength, recruitment, and aerobic capacity. Flywheel-based inertial training (FIT) has been used as a countermeasure to preserve muscle strength and size. The objective of this study was to determine how submaximal FIT squats with varying moments of inertia (MOI) affects lower extremity muscle recruitment.

Methods: Subjects (7 men, 7 women) completed FIT squats with various MOI: 0.000, 0.005, 0.010, 0.015, and 0.020 kg · m-2 (stages 1-5, respectively) at a pace of 50 squats/min for 3 min each. Electromyography (EMG) of the vastus lateralis, gluteus maximus (GM), biceps femoris, and soleus (SOL) were measured and normalized to maximal effort. Data were analyzed by repeated measures analysis of variance.

Results: Peak EMG amplitude [effect size (ES): 0.75-1.43] and integrated EMG activity (ES: 0.73-1.24) for all muscles increased linearly across MOI. Mean eccentric EMG amplitude was greater than concentric for the vastus lateralis (19-63% greater; ES: 1.58). A significant phase × MOI interaction was noted for the GM and SOL (ES: 1.27 and 2.08, respectively) where greater MOI preferentially increased eccentric EMG amplitude.

Discussion: Increasing MOI increases EMG amplitude of hip extensors, knee extensors, and plantarflexors during submaximal FIT squats in the concentric and eccentric phases. At higher MOI, EMG amplitude is preferentially increased in GM and SOL, especially in the eccentric phase. Submaximal FIT squats can be performed for up to 3 min continuously with active concentric and eccentric phases. This training modality may concomitantly preserve muscle and cardiorespiratory fitness during unloading but this remains to be tested. Mitchinson CJ, Caruso J, Best S, Bollinger L. Lower extremity electromyography during submaximal squats with varying moments of inertia. Aerosp Med Hum Perform. 2025; 96(2):93-100.

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不同惯性矩下蹲时的下肢肌电图。

简介：太空飞行损害肌肉大小，力量，招募和有氧能力。基于飞轮的惯性训练（FIT）已被用作保持肌肉力量和尺寸的对策。本研究的目的是确定具有不同惯性矩（MOI）的次极大FIT深蹲如何影响下肢肌肉募集。方法：受试者（7男7女）完成FIT深蹲，MOI分别为0.000、0.005、0.010、0.015和0.020 kg·m-2（阶段1-5），速度为50次/分钟，每次3分钟。测量股外侧肌、臀大肌（GM）、股二头肌和比目鱼肌（SOL）的肌电图（EMG），并将其归一化为最大努力。资料分析采用重复测量方差分析。结果：所有肌肉的峰值肌电振幅[效应大小（ES）： 0.75-1.43]和综合肌电活动（ES: 0.73-1.24）在MOI中呈线性增加。股外侧肌的平均偏心肌电振幅大于同心圆肌电振幅(19-63%；ES: 1.58)。在GM和SOL中发现了显著的相位与MOI相互作用（ES分别为1.27和2.08），MOI越大，偏心肌电振幅越高。讨论：在同心和偏心阶段的次最大FIT深蹲中，增加MOI会增加髋伸肌、膝关节伸肌和跖屈肌的肌电图振幅。在较高的MOI下，GM和SOL的肌电振幅优先增加，尤其是在偏心相。次最大FIT深蹲可以连续进行3分钟，同时进行积极的同心和偏心阶段。这种训练方式可能在卸载过程中同时保持肌肉和心肺健康，但这仍有待检验。刘建军，刘建军，刘建军，等。大蹲运动中下肢肌电图的变化。航空航天Med Hum Perform. 2025；96(2): 93 - 100。

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来源期刊

Aerospace medicine and human performance PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH -MEDICINE, GENERAL & INTERNAL

CiteScore

1.10

自引率

22.20%

发文量

272

期刊介绍： The peer-reviewed monthly journal, Aerospace Medicine and Human Performance (AMHP), formerly Aviation, Space, and Environmental Medicine, provides contact with physicians, life scientists, bioengineers, and medical specialists working in both basic medical research and in its clinical applications. It is the most used and cited journal in its field. It is distributed to more than 80 nations.