提供亚感觉振动噪声的鞋垫可改善健康老年人的平衡和步态。

A shoe insole delivering subsensory vibratory noise improves balance and gait in healthy elderly people.

作者信息

Lipsitz Lewis A, Lough Matthew, Niemi James, Travison Thomas, Howlett Harold, Manor Brad

机构信息

Hebrew SeniorLife, Institute for Aging Research, Boston, MA; Beth Israel Deaconess Medical Center, Boston, MA; Harvard Medical School, Boston, MA.

Hebrew SeniorLife, Institute for Aging Research, Boston, MA.

出版信息

Arch Phys Med Rehabil. 2015 Mar;96(3):432-9. doi: 10.1016/j.apmr.2014.10.004. Epub 2014 Oct 24.

DOI:10.1016/j.apmr.2014.10.004

PMID:25450133

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4339481/

Abstract

OBJECTIVES

To test whether subsensory vibratory noise applied to the sole of the foot using a novel piezoelectric vibratory insole can significantly improve sensation, enhance balance, and reduce gait variability in elderly people, as well as to determine the optimal level of vibratory noise and whether the therapeutic effect would endure and the user's sensory threshold would remain constant during the course of a day.

DESIGN

A randomized, single-blind, crossover study of 3 subsensory noise stimulation levels on 3 days.

SETTING

Balance and gait laboratory.

PARTICIPANTS

Healthy community-dwelling elderly volunteers (N=12; age, 65-90y) who could feel the maximum insole vibration.

INTERVENTIONS

A urethane foam insole with the piezoelectric actuators delivering subsensory vibratory noise stimulation to the soles of the feet.

MAIN OUTCOME MEASURES

Balance, gait, and timed Up and Go (TUG) test.

RESULTS

The vibratory insoles significantly improved performance on the TUG test, reduced the area of postural sway, and reduced the temporal variability of walking at both 70% and 85% of the sensory threshold and during the course of a day. Vibratory sensation thresholds remained relatively stable within and across study days.

CONCLUSIONS

This study provides proof of concept that the application of the principle of stochastic resonance to the foot sole sensory system using a new low-voltage piezoelectric technology can improve measures of balance and gait that are associated with falls. Effective vibratory noise amplitudes range from 70% to 85% of the sensory threshold and can be set once daily.

摘要

目的

测试使用新型压电振动鞋垫对老年人足底施加亚感觉振动噪声是否能显著改善感觉、增强平衡能力并减少步态变异性，同时确定振动噪声的最佳水平，以及治疗效果是否会持续，用户的感觉阈值在一天中是否会保持恒定。

设计

对3种亚感觉噪声刺激水平进行为期3天的随机、单盲、交叉研究。

地点

平衡与步态实验室。

参与者

能够感觉到鞋垫最大振动的健康社区居住老年志愿者（N = 12；年龄65 - 90岁）。

干预措施

一种带有压电致动器的聚氨酯泡沫鞋垫，可向足底传递亚感觉振动噪声刺激。

主要观察指标

平衡能力、步态以及计时起立行走测试（TUG测试）。

结果

振动鞋垫在TUG测试中显著改善了表现，减少了姿势摆动面积，并在感觉阈值的70%和85%以及一天当中均降低了步行的时间变异性。振动感觉阈值在研究日内和不同研究日之间保持相对稳定。

结论

本研究提供了概念验证，即采用新型低电压压电技术将随机共振原理应用于足底感觉系统，可以改善与跌倒相关的平衡和步态指标。有效的振动噪声幅度范围为感觉阈值的70%至85%，且每天可设置一次。

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