经股截肢患者在水平行走时对假膝对齐变化的生物力学反应。

Q Medicine
Sara R Koehler-McNicholas, Robert D Lipschutz, Steven A Gard
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引用次数: 20

摘要

假肢对齐是下肢假肢整体配合和性能的重要因素。然而,经股骨截肢患者用于协调被动假体膝关节运动的假体对齐与控制策略之间的关系尚不清楚。本研究调查了经股截肢患者在水平行走任务中对膝关节排列系统扰动的生物力学反应。定量收集了三种对齐条件下的步态数据:台式对齐、2厘米膝关节前平移(ANT)和2厘米膝关节后平移(POST)。为了应对不稳定的对齐扰动(即ANT条件),参与者显着增加了他们的早期站立髋关节伸展时刻,证实了经股截肢患者依赖髋关节伸肌策略来维持膝关节稳定性。然而,参与者也减少了他们装载假体的速度,减少了他们受影响的一边的步长,增加了他们的躯干弯曲,并在另一边脚趾脱落时保持假体更垂直的姿势。总的来说,这些结果表明,经股截肢患者依靠组合策略来协调站立阶段的膝关节屈曲。此外,相对而言,在POST条件下观察到的显著变化较少,这表明偏向后路对齐可能对站立阶段、膝关节控制的影响较小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The biomechanical response of persons with transfemoral amputation to variations in prosthetic knee alignment during level walking.

The biomechanical response of persons with transfemoral amputation to variations in prosthetic knee alignment during level walking.

The biomechanical response of persons with transfemoral amputation to variations in prosthetic knee alignment during level walking.

Prosthetic alignment is an important factor in the overall fit and performance of a lower-limb prosthesis. However, the association between prosthetic alignment and control strategies used by persons with transfemoral amputation to coordinate the movement of a passive prosthetic knee is poorly understood. This study investigated the biomechanical response of persons with transfemoral amputation to systematic perturbations in knee joint alignment during a level walking task. Quantitative gait data were collected for three alignment conditions: bench alignment, 2 cm anterior knee translation (ANT), and 2 cm posterior knee translation (POST). In response to a destabilizing alignment perturbation (i.e., the ANT condition), participants significantly increased their early-stance hip extension moment, confirming that persons with transfemoral amputation rely on a hip extensor strategy to maintain knee joint stability. However, participants also decreased the rate at which they loaded their prosthesis, decreased their affected-side step length, increased their trunk flexion, and maintained their prosthesis in a more vertical posture at the time of opposite toe off. Collectively, these results suggest that persons with transfemoral amputation rely on a combination of strategies to coordinate stance-phase knee flexion. Further, comparatively few significant changes were observed in response to the POST condition, suggesting that a bias toward posterior alignment may have fewer implications in terms of stance-phase, knee joint control.

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