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三维步态分析中的仪器化助行器:改善下肢运动功能受损患者的肌肉骨骼评估。

An instrumented walker in three-dimensional gait analysis: Improving musculoskeletal estimates in the lower limb mobility impaired.

作者信息

Sivakumar Arjun, Bennett Kieran, Rickman Mark, Thewlis Dominic

机构信息

Centre for Orthopaedic & Trauma Research, University of Adelaide, SA, Australia.

Centre for Orthopaedic & Trauma Research, University of Adelaide, SA, Australia.

出版信息

Gait Posture. 2022 Mar;93:142-145. doi: 10.1016/j.gaitpost.2022.01.023. Epub 2022 Jan 29.

DOI:10.1016/j.gaitpost.2022.01.023
PMID:35149244
Abstract

BACKGROUND

In three-dimensional (3D) gait analysis of individuals requiring a walking frame (walker), acquisition of artefact-free motion and force data is challenging. Without inclusion of handle-reaction forces alongside ground reaction forces, external forces used in musculoskeletal modelling are incomplete. This may increase dynamic inconsistencies between the model and measured motions and forces, thus, uncertainties in estimates of musculoskeletal load.

RESEARCH QUESTION

To develop an instrumented walker and evaluate the effects of including handle-reaction forces on residual forces during musculoskeletal modelling.

METHODS

An instrumented walker measuring handle-reaction forces synchronously with motion capture and ground reaction force data was developed. 3D gait analysis was conducted in ten elderly participants recovering from a proximal femur fracture and requiring a walker for ambulation. Joint kinetics and residual forces were calculated between two external load conditions: (1) external loads applied using only force platforms; or (2) external loads applied using force platforms and walker handle-reaction forces.

RESULTS

Including handle-reaction forces reduced residual forces and improved estimates of musculoskeletal loads of the torso (P = <0.001).

SIGNIFICANCE

A wide instrumented walker measuring handle-reaction forces allows for the gait analysis of individuals requiring a walker and improves reliability of musculoskeletal dynamics.

摘要

背景

在对需要使用助行架的个体进行三维步态分析时,获取无伪影的运动和力数据具有挑战性。如果在地面反作用力之外不纳入手柄反作用力,用于肌肉骨骼建模的外力就是不完整的。这可能会增加模型与测量的运动和力之间的动态不一致性,从而导致肌肉骨骼负荷估计的不确定性。

研究问题

开发一种装有仪器的助行架,并评估在肌肉骨骼建模过程中纳入手柄反作用力对残余力的影响。

方法

开发了一种装有仪器的助行架,可与运动捕捉和地面反作用力数据同步测量手柄反作用力。对10名因股骨近端骨折正在康复且需要使用助行架行走的老年参与者进行了三维步态分析。在两种外部负荷条件下计算关节动力学和残余力:(1)仅使用力平台施加外部负荷;或(2)使用力平台和助行架手柄反作用力施加外部负荷。

结果

纳入手柄反作用力可降低残余力,并改善对躯干肌肉骨骼负荷的估计(P = <0.001)。

意义

一种可测量手柄反作用力的宽幅装有仪器的助行架,能够对需要使用助行架的个体进行步态分析,并提高肌肉骨骼动力学的可靠性。

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