振动触觉生物反馈对老年人过度行走摇摆及姿势控制的影响

O. Dehzangi, Zheng Zhao, Mohammad-Mahdi Bidmeshki, John Biggan, Christopher Ray, R. Jafari
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引用次数: 9

摘要

步态和姿势控制是人体运动和平衡的重要方面。人类正常的运动控制能力随着年龄的增长而发生变化,包括体感、视觉、空间定向感和神经肌肉控制在内的神经系统开始退化。因此,身体运动控制,如行走时的横向摆动受到影响,这已被证明是老年人跌倒的一个重要原因。生物反馈已被研究,以帮助老年人改善他们的身体运动和姿势能力,通过补充反馈到神经系统。在本文中,我们提出了一个可穿戴的低功耗传感器系统,能够表征横向摆动和步态参数。然后,通过振动反馈模块提供校正反馈,实时减少过大的摆动。我们提出的系统具有实时和低功耗的特点,以及可穿戴性,可以长期连续监测受试者的摇摆,同时提供直接反馈,以增强行走摇摆并防止跌倒。它也可以在诊所用作评估跌倒风险的工具,并训练使用者更好地保持平衡。在12名老年人身上评估了生物反馈系统的有效性,他们在有和没有生物反馈的情况下完成了步态和站立任务。采用摆动误差反馈系统后,在摆角方差、步态相位方差和摄动面姿态控制方面均有显著改善(p值< 0.1)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The impact of vibrotactile biofeedback on the excessive walking sway and the postural control in elderly
Gait and postural control are important aspects of human movement and balance. Normal movement control in human is subject to change with aging when the nervous system, comprising somatosensory, visual senses, spatial orientation senses, and neuromuscular control starts to degrade. As a result, the body movement control such as the lateral sway while walking is affected which has been shown to be a significant cause of falling among the elderly. Biofeedback has been investigated to assist elderly improve their body movement and postural ability, by supplementing the feedback to the nervous system. In this paper, we propose a wearable low-power sensor system capable of characterizing lateral sway and gait parameters. Then, it can provide corrective feedback to reduce excessive sway in real-time via vibratory feedback modules. Real-time and low-power characteristics along with wearability of our proposed system allow long-term continuous subjects' sway monitoring while giving direct feedback to enhance walking sway and prevent falling. It can also be used in the clinics as a tool for evaluating the risks of falls, and training users to better maintain their balance. The effectiveness of the biofeedback system was evaluated on 12 older adults as they performed gait and stance tasks with and without biofeedback. Significant improvement (p-value < 0.1) in sway angle in variance of the sway angle, variance of gait phases, and in postural control while on perturbed surface was detected when the proposed sway error feedback system was used.
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