IMU 传感器在评估老年人实验室和户外环境下行走特征中的有效性。

Validity of IMU sensors for assessing features of walking in laboratory and outdoor environments among older adults.

机构信息

Institute of Rehabilitation, Jamk University of Applied Sciences, Jyväskylä, Finland; Neuromuscular Research Center, Faculty of Sport and Health Sciences, University of Jyväskylä, Jyväskylä, Finland; Gerontology Research Center (GEREC), Faculty of Sport and Health Sciences, University of Jyväskylä, Jyväskylä, Finland.

Neuromuscular Research Center, Faculty of Sport and Health Sciences, University of Jyväskylä, Jyväskylä, Finland; School of Sport and Exercise, University of Gloucestershire, Gloucester, UK.

出版信息

Gait Posture. 2024 Oct;114:277-283. doi: 10.1016/j.gaitpost.2024.10.013. Epub 2024 Oct 22.

DOI:10.1016/j.gaitpost.2024.10.013

PMID:39442222

Abstract

INTRODUCTION

IMU sensors (three-dimensional accelerometer, gyroscope and magnetometer) enable assessment of walking in older adults outside the laboratory. We studied whether IMUs are valid for detecting walking parameters (step events, time, length, and cadence) in a laboratory and outdoors on a level surface in older adults.

METHODS

This validation study is part of a larger cross-sectional study. Twenty-six participants (mean age 76 years, 65 % female) walked on a treadmill indoors and on a sport track outdoors at self-selected speed. IMUs were attached laterally on the shanks and on the lower back at the level of L3-L4. Initial contact (IC) and step lengths were also estimated using acceleration signals (vertical, antero-posterior) from the pelvic IMU. Terminal contact (TC) was determined from the shank IMU sagittal angular velocity. For step length, inverted pendulum model and participant's leg length (0.53 x height) was used. Step duration was calculated from IC to the opposite leg IC and stride duration from IC to next ipsilateral IC. Cadence was calculated as steps/min. As reference data, 3D motion capture was used in the laboratory and a high-speed video camera outdoors. Intraclass correlation coefficients (ICC), root mean squared errors (RMSE), typical errors and Bland-Altman plots were calculated and drawn.

RESULTS

When comparing IC timing between IMU and reference data, mean bias was 0.031 s in the laboratory and -0.004 s outdoors, and for TC -0.057 s and -0.070 s respectively. Step and stride duration and cadence showed ICC values >0.80 and mean bias was <0.005 s for step and stride durations and <0.05 steps/min for cadence in both environments. Step length ICC values were <0.40 in the laboratory and outdoors.

SIGNIFICANCE

IMUs can be used to monitor temporal walking variables in older adults and may be useful for rehabilitation interventions and functional capacity assessment.

摘要

简介

惯性测量单元（三维加速度计、陀螺仪和磁力计）可用于在实验室外评估老年人的行走情况。我们研究了惯性测量单元是否可用于在实验室和室外水平表面上检测老年人的行走参数（步事件、时间、长度和步频）。

方法

本验证研究是一项更大的横断面研究的一部分。26 名参与者（平均年龄 76 岁，65%为女性）以自身选择的速度在跑步机上和运动轨道上室内外行走。惯性测量单元分别侧向安装在小腿上和下背部第 3-4 腰椎水平。初始接触（IC）和步长也使用来自骨盆惯性测量单元的垂直、前后加速度信号进行估计。终端接触（TC）由小腿惯性测量单元矢状角速度确定。步长使用倒立摆模型和参与者的腿长（0.53x 身高）。步长时间从 IC 到对侧 IC 计算，步长时间从 IC 到同侧下一个 IC 计算。步频为每分钟步数。作为参考数据，在实验室使用三维运动捕捉，在室外使用高速摄像机。计算并绘制了组内相关系数（ICC）、均方根误差（RMSE）、典型误差和 Bland-Altman 图。

结果

当比较 IMU 和参考数据的 IC 时间时，实验室的平均偏差为 0.031s，室外为-0.004s，TC 的实验室和室外的平均偏差分别为-0.057s 和-0.070s。步长和步长时间以及步频的 ICC 值>0.80，步长和步长时间的平均偏差<0.005s，步频的平均偏差<0.05 步/min，在两种环境下均如此。实验室和室外的步长 ICC 值<0.40。