Effect of Whole-body Vibration frequency on muscle tensile state during graded plantar flexor isometric contractions

IF 2.4 2区 医学 Q2 SPORT SCIENCES Journal of Exercise Science & Fitness Pub Date : 2023-10-01 DOI:10.1016/j.jesf.2023.10.003
Pornpimol Muanjai , Chris Haas , Wolfram Sies , Uwe Mittag , Jochen Zange , Eckhard Schönau , Ibrahim Duran , Sigitas Kamandulis , Jörn Rittweger
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Abstract

Background

Acute physiological and biomechanical alterations have been reported following whole-body vibration (WBV). Stiffening of muscles has only been anecdotally reported in response to WBV. Accordingly, this study investigated active plantar flexor muscle stiffness in response to a single WBV bout at four mechanical vibration frequencies.

Methods

Thirteen healthy adults (37.1 ± 14.4 years old) randomly received WBV in 4 different frequencies (6, 12, 24, and 0 Hz control) for 5 min. Shear wave speed (SWS) in longitudinal and transverse projections, architecture, and electric muscle activity were recorded in the medial gastrocnemius (MG) and soleus (SOL) muscle during graded plantar flexor contraction. Subjective rating of perceived muscle stiffness was assessed via Likert-scale.

Results

SWS of the MG at rest was enhanced in response to 5 min of 24 Hz WBV (p = 0.025), while a small reduction in SOL SWS was found during contraction (p = 0.005) in the longitudinal view. Subjective stiffness rating was increased following 12 Hz intervention. After 24 Hz WBV, pennation angle for MG was decreased (p = 0.011) during contraction. As a secondary finding, plantar flexor strength was significantly increased with each visit, which, however, did not affect the study's main outcome because of balanced sequence allocation.

Conclusion

SWS effects were solely limited to 24 Hz mechanical vibration and in the longitudinal projection. The observed effects are compatible with an interpretation by post-activation potentiation, warm-up, and force-distribution within the triceps surae muscles following 5 min WBV. The outcome may suggest SWS as a useful tool for assessing acute changes in muscle stiffness.

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全身振动频率对足底屈肌等长收缩时肌肉张力状态的影响
背景:有报道称全身振动(WBV)后会发生急性生理和生物力学变化。肌肉僵硬只在WBV的反应中有轶事报道。因此,本研究调查了在四种机械振动频率下对单次WBV的反应。方法13例健康成人(37.1±14.4岁)随机接受4种不同频率(6、12、24、0 Hz对照)的WBV治疗5 min,记录腓骨内侧肌(MG)和比目鱼肌(SOL)在足底屈肌梯度收缩过程中纵、横投影、结构和电肌活动的横波速度(SWS)。主观评定感知肌肉僵硬度通过李克特量表进行评估。结果24 Hz WBV 5 min时,静息时MG的ssws增强(p = 0.025),而收缩时SOL SWS略有降低(p = 0.005)。主观僵硬评分在12 Hz干预后增加。24 Hz WBV后,MG在收缩过程中笔触角减小(p = 0.011)。作为次要发现,每次访问时足底屈肌强度显著增加,然而,由于序列分配平衡,这并不影响研究的主要结果。结论sws效应仅局限于24 Hz机械振动和纵向投影。观察到的效果与激活后增强、热身和5分钟WBV后三头肌表面肌肉内的力分布的解释是一致的。结果可能表明SWS是评估肌肉僵硬急性变化的有用工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
5.10
自引率
3.60%
发文量
54
审稿时长
31 days
期刊介绍: The Journal of Exercise Science and Fitness is the official peer-reviewed journal of The Society of Chinese Scholars on Exercise Physiology and Fitness (SCSEPF), the Physical Fitness Association of Hong Kong, China (HKPFA), and the Hong Kong Association of Sports Medicine and Sports Science (HKASMSS). It is published twice a year, in June and December, by Elsevier. The Journal accepts original investigations, comprehensive reviews, case studies and short communications on current topics in exercise science, physical fitness and physical education.
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