轮椅推进两种速度下的肩部运动学和动力学

Shoulder kinematics and kinetics during two speeds of wheelchair propulsion.

作者信息

Koontz Alicia M, Cooper Rory A, Boninger Michael L, Souza Aaron L, Fay Brian T

机构信息

Department of Rehabilitation Science and Technology, University of Pittsburgh, PA, USA.

出版信息

J Rehabil Res Dev. 2002 Nov-Dec;39(6):635-49.

PMID:17943666

Abstract

The primary objective of this study was to examine the kinematics and kinetics of the shoulder during wheelchair propulsion at a slow and moderate speed. Twenty-seven individuals with paraplegia propelled their wheelchairs at speeds of 0.9 m/s and 1.8 m/s while a motion analysis system captured movements of their upper limbs and SMART(Wheel)s simultaneously recorded their pushrim kinetics. Intraclass R correlation and Cronbach's coefficient alpha statistics revealed that all shoulder parameters were stable and consistent between strokes and speeds. The shoulder exhibited a greater range of motion, and forces and moments at the shoulder were 1.2 to 2.0 times greater (p < 0.05) during the 1.8 m/s speed trial. Peak posterior forces occurred near the end of the propulsion phase, and at the same time, the shoulder was maximally flexed and minimally abducted (p > 0.1). Shoulder positioning and the associated peak shoulder loads during propulsion may be important indicators for identifying manual wheelchair users at risk for developing shoulder pain and injury.

摘要

本研究的主要目的是研究在以慢速和中速推动轮椅过程中肩部的运动学和动力学。27名截瘫患者以0.9米/秒和1.8米/秒的速度推动轮椅，同时一个运动分析系统捕捉他们上肢的运动，SMART（Wheel）s同步记录他们的轮圈动力学。组内相关系数R和克朗巴哈系数α统计显示，所有肩部参数在划动和速度之间是稳定且一致的。在1.8米/秒速度试验期间，肩部表现出更大的运动范围，肩部的力和力矩大1.2至2.0倍（p<0.05）。最大向后力出现在推动阶段接近结束时，同时，肩部处于最大程度屈曲和最小程度外展状态（p>0.1）。推动过程中的肩部位置及相关的肩部峰值负荷可能是识别有肩部疼痛和损伤风险的手动轮椅使用者的重要指标。

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轮椅推进两种速度下的肩部运动学和动力学

Shoulder kinematics and kinetics during two speeds of wheelchair propulsion.

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