Neck muscle vibration produces diverse responses in balance and gait speed between individuals with and without neck pain

Musculoskeletal Science and Practice
Volume 35, June 2018, Pages 25-29
Nipaporn Wannaprom

Highlights

Cervical proprioception is important for controlling balance and gait.
Greater AP postural sway and slower gait speed occurs with neck pain.
Vibration effects balance and gait positively in neck pain and negatively in controls.
Neck muscle vibration has potential for rehabilitation of neck pain.

Abstract

Background

Neck muscle vibration can influence cervical proprioception and sensorimotor function. It is hypothesized to affect motor performance differently in persons with and without neck pain.

Study design

Cross-sectional study.

Objective

To clarify the extent to which vibration-induced motor responses of neck muscles affect static standing balance and gait speed in persons with and without neck pain.

Methods

Thirty participants with chronic neck pain and 30 healthy controls were recruited. Balance and gait were measured before and after 30 s of suboccipital neck muscle vibration. Balance was measured in a confortable stance with eyes closed using a swaymeter and gait using the timed 10 m walk test.

Results

At baseline, neck pain participants had greater postural sway, particularly in the anterior-posterior direction and slower gait speed than healthy controls (p < 0.001). Immediately after vibration, neck pain participants displayed decreased postural sway, and increased gait speed (p < 0.001). Healthy controls had increased postural sway and decreased gait speed (p < 0.001).

Conclusion

Neck muscle vibration improved standing balance and gait speed in participants with neck pain but reduced performance in healthy controls. The study supports the importance of cervical proprioceptive information in postural control. Use of vibration could be considered neck pain patients’ rehabilitation.

Journal Reference

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