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

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...

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Bibliographic Details
Published in:Experimental brain research 2023-09, Vol.241 (9), p.2261-2273
Main Authors: Chalimourdas, A., Gilles, A., De Hertogh, W., Michiels, S.
Format: Article
Language:English
Subjects:
Analysis
Balance
Biomedical and Life Sciences
Biomedicine
Cross-Sectional Studies
Evaluation
Frequencies of oscillating systems
Humans
Management
Muscle contraction
Muscles
Neck
Neck Muscles
Neurology
Neurosciences
Postural Balance - physiology
Posture
Proprioception
Proprioception - physiology
Research Article
Velocity
Vibration
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Summary: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   0.34) 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.
ISSN:0014-4819
1432-1106
DOI:10.1007/s00221-023-06680-z