Development of an active ankle-foot orthosis for hemiplegic patients

International Convention on Rehabilitation Engineering & Assistive Technology Pub Date : 2007-04-23 DOI:10.1145/1328491.1328521

Jungyoon Kim, Sungjae Hwang, Youngho Kim

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引用次数: 22

Abstract

In this study, we developed an active ankle-foot orthosis (AAFO) which could control dorsiflexion/plantarflexion of the ankle joint to prevent foot drop and toe drag during walking. To prevent foot slap after initial contact, the ankle joint needs to be actively controlled to minimize forefoot collision with the ground. During late stance, the ankle joint also needs to be controlled to provide toe clearance and to help push-off. 3D gait analyses were performed on a hemiplegic patient under three different gait conditions: gait without AFO(NAFO), gait with the conventional hinged AFO without controlling ankle joint (HAFO), and gait with the developed AFO(AAFO). Results showed that AAFO could prevent not only foot drop by the proper plantarflexion during loading response but also toe drag by sufficient amount of plantarflexion in pre-swing and reasonable dorsiflexion during swing phase, enhancing all temporal gait parameters. The present results indicated that the developed AAFO might have more clinical benefits to treat foot drop and toe drag in hemiplegic patients, comparing with conventional AFOs.

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偏瘫患者活动性踝足矫形器的研制

在这项研究中，我们开发了一种主动踝足矫形器(AAFO)，它可以控制踝关节的背屈/跖屈，以防止行走时脚下垂和脚趾拖拽。为了防止初次接触后拍脚，需要主动控制踝关节，以尽量减少前脚与地面的碰撞。在后期站立时，踝关节也需要被控制以提供脚趾间隙和帮助蹬离。对1例偏瘫患者进行了三种不同步态条件下的三维步态分析:无AFO步态(NAFO)、无踝关节控制的传统铰接AFO步态(HAFO)和有发达AFO步态(AAFO)。结果表明，AAFO不仅可以在负荷反应时通过适当的跖屈来防止足部下垂，而且可以在摆动前充分的跖屈和摆动期间合理的背屈来防止足部拖动，从而提高所有时间步态参数。本研究结果提示，与常规afo相比，发展AAFO治疗偏瘫患者足下垂和趾拖可能具有更大的临床疗效。

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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International Convention on Rehabilitation Engineering & Assistive Technology

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