Gait Analysis using Wearable E-Textile Sock: an Experimental Study of Test-Retest Reliability

2021 IEEE International Symposium on Medical Measurements and Applications (MeMeA) Pub Date : 2021-06-23 DOI:10.1109/MeMeA52024.2021.9478702

F. Amitrano, A. Coccia, L. Donisi, G. Pagano, G. Cesarelli, G. D'Addio

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引用次数: 6

Abstract

Sock is a wearable e-textile sock for gait analysis. It is based on the acquisition and digital processing of the angular velocities of the lower limbs. In this paper we focus on the study of test-retest reliability of this system in measuring spatio-temporal gait parameters. The analysis was simultaneously conducted on data acquired by a multicamera system for gait analysis (SMART-DX 700 by BTS), in order to have reference values. A group of healthy subjects, equipped with both systems, performed four repeated walking tests along an 11 m walkway, consecutively and under constant conditions. The four tests were repeated at preferred, slow and fast self- selected walking speed. The Intraclass Correlation Coefficient (ICC) and Minimum Detectable Change (MDC) were evaluated to assess the repeatability of the measures. ICC values range from moderate to excellent for all gait parameters assessed by smart socks. The novel system presents test-retest reliability values comparable to, if not higher than, those shown by the gold standard. Finally, the results of gait reliability as a function of walking speed show excellent ICCs and very low MDCs for all parameters evaluated on trials at fast velocity, supporting the referenced hypothesis that faster movement is more consistent.

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穿戴式电子纺织袜步态分析:重测信度实验研究

Sock是一种可穿戴的电子纺织品袜子，用于步态分析。它是基于下肢角速度的采集和数字处理。本文重点研究了该系统在测量时空步态参数时的重测信度。同时对多摄像头步态分析系统(BTS的SMART-DX 700)采集的数据进行分析，以便有参考价值。一组健康受试者配备了这两种系统，在恒定条件下连续沿着11米的人行道进行了四次重复行走测试。四项试验分别以自我选择的首选、慢速和快速进行。评估类内相关系数(ICC)和最小可检测变化(MDC)以评估测量的可重复性。智能袜子评估的所有步态参数的ICC值范围从中等到优异。新系统呈现的重测信度值与金标准显示的信度值相当，如果不高于的话。最后，步态可靠性作为步行速度函数的结果显示，在快速度试验中评估的所有参数的ICCs都很好，MDCs很低，支持了更快的运动更一致的参考假设。

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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2021 IEEE International Symposium on Medical Measurements and Applications (MeMeA)

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