用于截瘫患者行走的基于传感器的混合神经假体髋关节控制。

Sensor-based hip control with hybrid neuroprosthesis for walking in paraplegia.

作者信息

To Curtis S, Kobetic Rudi, Bulea Thomas C, Audu Musa L, Schnellenberger John R, Pinault Gilles, Triolo Ronald J

机构信息

Louis Stokes Cleveland Department of Veterans Affairs Medical Center, Cleveland, OH.

出版信息

J Rehabil Res Dev. 2014;51(2):229-44. doi: 10.1682/JRRD.2012.10.0190.

DOI:10.1682/JRRD.2012.10.0190

PMID:24933721

Abstract

The objectives of this study were to test whether a hybrid neuroprosthesis (HNP) with an exoskeletal variable-constraint hip mechanism (VCHM) combined with a functional neuromuscular stimulation (FNS) controller can maintain upright posture with less upper-limb support and improve gait speed as compared with walking with either an isocentric reciprocating gait orthosis (IRGO) or FNS only. The results show that walking with the HNP significantly reduced forward lean in FNS-only walking and the maximum upper-limb forces by 42% and 19% as compared with the IRGO and FNS-only gait, respectively. Walking speed increased significantly with VCHM as compared with 1:1 reciprocal coupling and by 15% when using the sensor-based FNS controller as compared with HNP with fixed baseline stimulation without the controller active.

摘要

本研究的目的是测试一种带有外骨骼可变约束髋关节机制（VCHM）并结合功能性神经肌肉刺激（FNS）控制器的混合神经假体（HNP），与使用同心往复式步态矫形器（IRGO）或仅使用FNS行走相比，是否能以更少的上肢支撑维持直立姿势并提高步速。结果表明，与IRGO和仅使用FNS的步态相比，使用HNP行走可使仅使用FNS行走时的向前倾斜和最大上肢力分别显著降低42%和19%。与1:1反向耦合相比，使用VCHM时步行速度显著提高；与未激活控制器的固定基线刺激的HNP相比，使用基于传感器的FNS控制器时步行速度提高了15%。

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用于截瘫患者行走的基于传感器的混合神经假体髋关节控制。

Sensor-based hip control with hybrid neuroprosthesis for walking in paraplegia.

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