振动频率和位置是否会影响颈部肌肉振动对姿势摆动的影响？一项无症状参与者的横断面研究。

Does vibration frequency and location influence the effect of neck muscle vibration on postural sway? A cross-sectional study in asymptomatic participants.

机构信息

Department of Rehabilitation Sciences and Physiotherapy, University of Antwerp, Wilrijk, Belgium.

REVAL Rehabilitation Research Centre, Hasselt University, Diepenbeek, Belgium.

出版信息

Exp Brain Res. 2023 Sep;241(9):2261-2273. doi: 10.1007/s00221-023-06680-z. Epub 2023 Aug 8.

DOI:10.1007/s00221-023-06680-z

PMID:37552270

Abstract

INTRODUCTION

Postural control is of utmost importance for human functioning. Cervical proprioception is crucial for balance control. Therefore, any change to it can lead to balance problems. Previous studies used neck vibration to change cervical proprioception and showed changes in postural control, but it remains unknown which vibration frequency or location causes the most significant effect. Therefore, this study aimed to investigate the effect of different vibration frequencies and locations on postural sway and to serve as future research protocol guidance.

METHODS

Seventeen healthy young participants were included in the study. We compared postural sway without vibration to postural sway with six different combinations of vibration frequency (80, 100, and 150 Hz) and location (dorsal neck muscles and sternocleidomastoid). Postural sway was evaluated using a force platform. The mean center of pressure (CoP) displacement, the root mean square (RMS), and the mean velocity in the anteroposterior and mediolateral direction were calculated, as well as the sway area. The aligned rank transform tool and a three-way repeated measures ANOVA were used to identify significant differences in postural sway variables.

RESULTS

Neck vibration caused a significant increase in all postural sway variables (p < 0.001). Neither the vibration frequency (p > 0.34) nor location (p > 0.29) nor the interaction of both (p > 0.30) influenced the magnitude of the change in postural sway measured during vibration.

CONCLUSION

Neck muscle vibration significantly changes CoP displacement, mean velocity, RMS, and area. However, we investigated and found that there were no significant differences between the different combinations of vibration frequency and location.

摘要

简介

姿势控制对人类功能至关重要。颈椎本体感觉对于平衡控制至关重要。因此，任何变化都可能导致平衡问题。先前的研究使用颈部振动来改变颈椎本体感觉，并显示出对姿势控制的变化，但尚不清楚哪种振动频率或位置会产生最显著的效果。因此，本研究旨在探讨不同振动频率和位置对姿势摆动的影响，并为未来的研究方案提供指导。

方法

本研究纳入了 17 名健康的年轻参与者。我们比较了无振动时的姿势摆动和六种不同振动频率（80、100 和 150 Hz）和位置（颈背部肌肉和胸锁乳突肌）组合时的姿势摆动。使用力平台评估姿势摆动。计算了平均中心压力（CoP）位移、均方根（RMS）和前后向和侧向的平均速度，以及摆动面积。使用对齐等级变换工具和三向重复测量方差分析来确定姿势摆动变量的显著差异。

结果

颈部振动导致所有姿势摆动变量显著增加（p<0.001）。振动频率（p>0.34）、位置（p>0.29）或两者的相互作用（p>0.30）均未影响振动期间测量的姿势摆动变化幅度。

结论

颈部肌肉振动显著改变 CoP 位移、平均速度、RMS 和面积。然而，我们进行了调查，发现振动频率和位置的不同组合之间没有显著差异。

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振动频率和位置是否会影响颈部肌肉振动对姿势摆动的影响？一项无症状参与者的横断面研究。

Does vibration frequency and location influence the effect of neck muscle vibration on postural sway? A cross-sectional study in asymptomatic participants.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

简介

方法

结果

结论

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