A pilot case series for concurrent validation of inertial measurement units to motion capture in individuals who use unilateral lower-limb prostheses.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
M G Finco, Rita M Patterson, Sarah C Moudy
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引用次数: 0

Abstract

Introduction: Inertial measurement units (IMUs) may be viable options to collect gait data in clinics. This study compared IMU to motion capture data in individuals who use unilateral lower-limb prostheses.

Methods: Participants walked with lower-body IMUs and reflective markers in a motion analysis space. Sagittal plane hip, knee, and ankle waveforms were extracted for the entire gait cycle. Discrete points of peak flexion, peak extension, and range of motion were extracted from the waveforms. Stance times were also extracted to assess the IMU software's accuracy at detecting gait events. IMU and motion capture-derived data were compared using absolute differences and root mean square error (RMSE).

Results: Five individuals (n = 3 transtibial; n = 2 transfemoral) participated. IMU prosthetic limb data was similar to motion capture (RMSE: waveform ≤4.65°; discrete point ≤9.04°; stance ≤0.03s). However, one transfemoral participant had larger differences at the microprocessor knee joint (RMSE: waveform ≤15.64°; discrete ≤29.21°) from IMU magnetometer interference. Intact limbs tended to have minimal differences between IMU and motion capture data (RMSE: waveform ≤6.33°; discrete ≤9.87°; stance ≤0.04s).

Conclusion: Findings from this pilot study suggest IMUs have the potential to collect data similar to motion capture systems in sagittal plane kinematics and stance time.

在使用单侧下肢假体的个体中,同时验证惯性测量单元到运动捕捉的试点案例系列。
简介:惯性测量单元(imu)可能是收集临床步态数据的可行选择。这项研究比较了使用单侧下肢假体的个体的IMU和运动捕捉数据。方法:参与者在运动分析空间中使用下体imu和反射标记行走。提取整个步态周期的髋关节、膝关节和踝关节矢状面波形。从波形中提取出峰值屈曲、峰值延伸和运动范围的离散点。还提取了站立时间,以评估IMU软件在检测步态事件时的准确性。IMU和运动捕捉数据采用绝对差值和均方根误差(RMSE)进行比较。结果:5例(n = 3;N = 2经股)参与。IMU假肢数据与运动捕捉相似(RMSE:波形≤4.65°;离散点≤9.04°;立场≤0.03 s)。然而,一名经股参与者在微关节处有更大的差异(RMSE:波形≤15.64°;离散≤29.21°),不受IMU磁强计干扰。IMU和运动捕捉数据(RMSE:波形≤6.33°;离散≤9.87°;立场≤0.04 s)。结论:这项初步研究的结果表明,imu有可能收集类似于矢状面运动学和站立时间的运动捕捉系统的数据。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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