Facilitating push-off propulsion: A biomechanical model of ankle robotics assistance for plantarflexion gait training in stroke

机译：促进下垂推进：踝机器人辅助中风足底屈曲步态训练的生物力学模型

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Individuals with stroke often have diminished muscle strength that contributes to impaired push-off propulsion during walking, resulting in abnormal compensatory mechanisms and slower gait speeds. In this paper, we present a sagittal, 2-link biomechanical model of ankle push-off propulsion dynamics. The purpose of the model is to predict the parameters of an impedance controller to generate a desired level of anterior-posterior push-off during assisted walking with a modular ankle robot (“Anklebot”). In conjunction with our development of a novel gait event-triggered training approach, this model will facilitate tailoring the assisted push-off to individual severity. Here, we develop the model from first principles and experimentally validate it in a healthy subject.

机译：中风患者的肌肉力量通常会减弱，从而导致步行过程中的下推推进功能受损，从而导致异常的补偿机制和较慢的步态速度。在本文中，我们提出了一个矢状的，两节式的踝关节推进动力动力学生物力学模型。该模型的目的是预测阻抗控制器的参数，以在模块化脚踝机器人（“ Anklebot”）辅助行走期间生成所需水平的前后推力。结合我们开发的新型步态事件触发训练方法，此模型将有助于根据个人严重程度定制辅助推举。在这里，我们从第一条原则开发模型，并在健康受试者中进行实验验证。

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来源
《2014 5th IEEE RAS amp; EMBS International Conference on Biomedical Robotics and Biomechatronics》|2014年|656-663|共8页
会议地点 Sao Paulo(BR)
作者
Roy Anindo; Krebs Hermano I.; Iqbal Kamran; Macko Nathan R.; Macko Richard F.; Forrester Larry W.;
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作者单位

Dept. of Neurology, University of Maryland School of Medicine (UMB-SOM) and the VA RRD Maryland Exercise and Robotics Center of Excellence (MERCE), Baltimore, MD 21201;

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原文格式 PDF
正文语种 eng
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关键词
Biological system modeling; Foot; Legged locomotion; Propulsion; Torque; Training;

机译：生物系统建模；脚丫子;腿运动；推进力扭矩训练;;

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专利

1. Effect of plantarflexion resistance of an ankle-foot orthosis on ankle and knee joint power during gait in individuals post-stroke [J] . Kobayashi Toshiki, Orendurff Michael S., Singer Madeline L., Journal of Biomechanics . 2018,第期

机译：踝关节矫形器对踝关节踝关节踝关节矫形器对踝关节和膝关节电力的影响
2. The effect of ankle-foot orthosis plantarflexion stiffness on ankle and knee joint kinematics and kinetics during first and second rockers of gait in individuals with stroke [J] . Singer Madeline L., Kobayashi Toshiki, Lincoln Lucas S., Clinical biomechanics . 2014,第9期

机译：踝足矫形器足底屈肌僵硬度对中风患者第一和第二步态摇摆的脚踝和膝关节运动学及动力学的影响
3. Gait training in subacute non-ambulatory stroke patients using a full weight-bearing gait-assistance robot: A prospective, randomized, open, blinded-endpoint trial [J] . Ochi Mitsuhiro, Wada Futoshi, Saeki Satoru, Journal of the Neurological Sciences: Official Bulletin of the World Federation of Neurology . 2015,第1a2期

机译：使用全负重步态辅助机器人对亚急性非走动性中风患者进行步态训练：一项前瞻性，随机，开放，盲目的试验
4. Facilitating push-off propulsion: A biomechanical model of ankle robotics assistance for plantarflexion gait training in stroke [C] . Roy Anindo, Krebs Hermano I., Iqbal Kamran, IEEE RAS EMBS International Conference on Biomedical Robotics and Biomechatronics . 2014

机译：促进推迟推进：肱骨屈曲步态训练的踝关节机器人辅助生物力学模型
5. Exoskeleton Ankle Robot for Robot-Assisted Gait Training of Stroke Patients with Foot Drop [D] . Yeung, Ling Fung. 2018

机译：用于机器人辅助步态训练的脑骨骼脚踝机器人患者脚下跌落
6. Randomized controlled trial of robot-assisted gait training with dorsiflexion assistance on chronic stroke patients wearing ankle-foot-orthosis [O] . Ling-Fung Yeung, Corinna Ockenfeld, Man-Kit Pang, 2018

机译：机器人辅助步态训练与背屈辅助对患有踝足矫形器的中风患者的随机对照试验
7. Randomized controlled trial of robot-assisted gait training with dorsiflexion assistance on chronic stroke patients wearing ankle-foot-orthosis [O] . Ling-Fung Yeung, Corinna Ockenfeld, Man-Kit Pang, 2018

机译：随机对照试验在持有踝足矫形症的慢性中风患者对慢性中风患者的辅助辅助训练

Facilitating push-off propulsion: A biomechanical model of ankle robotics assistance for plantarflexion gait training in stroke

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