Estimating whole-body vibration limits of manual wheelchair mobility over common surfaces

IF 2 Q3 ENGINEERING, BIOMEDICAL Journal of Rehabilitation and Assistive Technologies Engineering Pub Date : 2022-04-01 DOI:10.1177/20556683221092322

Jacob Misch, S. Sprigle

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引用次数: 3

Abstract

Whole-body vibration (WBV) experienced during manual wheelchair use was quantified across several types of terrain (tile, sidewalk, decorative bricks, expanded metal grates). Over-ground travel was controlled using a robotic propulsion system. Vibrations along the vertical axis were measured with a triaxial accelerometer mounted to the seat of the wheelchair. Root-mean-square acceleration values were compared to the health guidance exposure limits established by the European Council using the WBV calculator tool published by the Health and Safety Executive (HSE). Vibrations along the vertical axis were well below the exposure values associated with health risks. Even the most aggressive tactile surface (grates) tested in this study would require more than 14 h of daily travel to reach the “exposure action value,” and more than 24 h would be required to reach the “exposure limit value”. Considering the average cumulative duration of active self-propulsion among manual wheelchair users is around an hour or less, none of the tested conditions were deemed unsafe or damaging.

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估算手动轮椅在公共表面上移动的全身振动极限

在手动轮椅使用过程中，对几种地形（瓷砖、人行道、装饰砖、膨胀金属格栅）的全身振动（WBV）进行了量化。地面飞行由机器人推进系统控制。使用安装在轮椅座椅上的三轴加速度计测量沿垂直轴的振动。将均方根加速度值与欧洲理事会使用健康与安全执行局（HSE）发布的WBV计算器工具制定的健康指导接触限值进行比较。沿垂直轴的振动远低于与健康风险相关的暴露值。即使是本研究中测试的最具攻击性的触觉表面（格栅），也需要超过14小时的日常旅行才能达到“暴露动作值”，而达到“暴露极限值”则需要超过24小时。考虑到手动轮椅使用者主动自推进的平均累积持续时间约为一小时或更短，没有一种测试条件被认为是不安全或有害的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Rehabilitation and Assistive Technologies Engineering ENGINEERING, BIOMEDICAL-

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