振动触觉反馈改善下肢假肢使用者在楼梯上的脚位置感知

N. Rokhmanova, E. Rombokas
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引用次数: 14

摘要

下肢截肢者在楼梯行走中表现出比肢体健全者更差的表现。据估计,21%的截肢者可以在没有扶手的情况下爬楼梯;近33%的人根本不走楼梯。脚底缺乏触觉,造成脚部放置的不确定性,可以通过将感觉反馈整合到假肢设计中来克服。在这里,我们描述了一种佩戴在大腿上的触觉反馈系统的设计和评估,该系统可以提供关于楼梯台阶的足部位置的振动触觉提示。通过因素辨别和足部放置意识测试来分析系统的有效性。穿着滑雪靴的对照组参与者(N=10)和膝盖以下截肢者(N=2)可以分别以95.4%和90.1%的准确率区分个体因素振动。振动触觉反馈的使用使报告足部位置的准确性分别提高了15%和17.5%。这些结果表明,使用振动触觉阵列进行感觉反馈可以改善下肢截肢者的楼梯下降性能。
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Vibrotactile Feedback Improves Foot Placement Perception on Stairs for Lower-Limb Prosthesis Users
Lower-limb amputees demonstrate decreased performance in stair ambulation compared to their intact-limb counterparts. An estimated 21% of amputees can navigate stairs without a handrail; almost 33% do not use stairs at all. The absence of tactile sensation on the bottom of the foot, creating uncertainty in foot placement, may be overcome by integrating sensory feedback into prosthesis design. Here we describe the design and evaluation of a haptic feedback system worn on the thigh to provide vibrotactile cues of foot placement with respect to stair steps. Tactor discrimination and foot placement awareness tests were performed to analyze system efficacy. Control participants wearing ski boots (N=10) and below-knee amputees (N=2) could discriminate individual tactor vibrations with 95.4% and 90.1% accuracy, respectively. The use of vibrotactile feedback increased accuracy in reporting foot placement by 15% and 17.5%, respectively. These results suggest that using vibrotactile arrays for sensory feedback may improve stair descent performance in lower-limb amputees.
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