残肢的冲击试验:系统对假肢刚度变化的反应。

Erin Boutwell, Rebecca Stine, Steven Gard
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引用次数: 7

摘要

目前尚不清楚改变义肢刚度是否会影响肢体总刚度和影响经胫骨截肢患者的减震。在本研究中测试的假设是,纵向假肢刚度的降低将产生(1)肢体总刚度的降低,(2)峰值冲击力的减小和峰值力的延迟时间的增加。14例经胫骨截肢患者参加了本研究。通过减震塔,通过压缩塔内的螺旋弹簧,减少了纵向刚度,从而修改了假体的刚度。建立了一种突发载荷评估装置,用于检测突发碰撞事件中肢体载荷力学的变化。在假肢刚度条件下,峰值力的大小或峰值力的时间没有明显变化。四肢总刚度估计范围为14.9至17.9 kN/m,但在不同条件下无显著差异。因此,义肢侧总肢刚度不受义肢刚度变化的影响。残肢总刚度对假肢刚度的不敏感可以用残肢解剖组织的力学特性(即刚度和阻尼)来解释。
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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Impact testing of the residual limb: System response to changes in prosthetic stiffness.

Currently, it is unknown whether changing prosthetic limb stiffness affects the total limb stiffness and influences the shock absorption of an individual with transtibial amputation. The hypotheses tested within this study are that a decrease in longitudinal prosthetic stiffness will produce (1) a reduced total limb stiffness, and (2) reduced magnitude of peak impact forces and increased time delay to peak force. Fourteen subjects with a transtibial amputation participated in this study. Prosthetic stiffness was modified by means of a shock-absorbing pylon that provides reduced longitudinal stiffness through compression of a helical spring within the pylon. A sudden loading evaluation device was built to examine changes in limb loading mechanics during a sudden impact event. No significant change was found in the peak force magnitude or timing of the peak force between prosthetic limb stiffness conditions. Total limb stiffness estimates ranged from 14.9 to 17.9 kN/m but were not significantly different between conditions. Thus, the prosthetic-side total limb stiffness was unaffected by changes in prosthetic limb stiffness. The insensitivity of the total limb stiffness to prosthetic stiffness may be explained by the mechanical characteristics (i.e., stiffness and damping) of the anatomical tissue within the residual limb.

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