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The feasibility of a brain-computer interface functional electrical stimulation system for the restoration of overground walking after paraplegia

机译：脑机接口功能电刺激系统在截瘫后恢复地面行走的可行性

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摘要

BackgroundDirect brain control of overground walking in those with paraplegia due to spinal cord injury (SCI) has not been achieved. Invasive brain-computer interfaces (BCIs) may provide a permanent solution to this problem by directly linking the brain to lower extremity prostheses. To justify the pursuit of such invasive systems, the feasibility of BCI controlled overground walking should first be established in a noninvasive manner. To accomplish this goal, we developed an electroencephalogram (EEG)-based BCI to control a functional electrical stimulation (FES) system for overground walking and assessed its performance in an individual with paraplegia due to SCI.

机译：背景技术由于脊髓损伤（SCI）而导致截瘫的人无法实现对地面行走的直接大脑控制。通过将大脑直接连接到下肢假体，侵入性脑机接口（BCI）可以为该问题提供永久解决方案。为了证明采用这种侵入性系统的合理性，首先应以非侵入性方式确定BCI控制的地面行走的可行性。为了实现此目标，我们开发了基于脑电图（EEG）的BCI，以控制用于地面行走的功能性电刺激（FES）系统，并评估了因SCI导致的截瘫患者的表现。

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期刊名称 Journal of NeuroEngineering and Rehabilitation
作者
Christine E. King; Po T. Wang; Colin M. McCrimmon; Cathy CY Chou; An H. Do; Zoran Nenadic;
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年(卷),期 2015(12),-1
年度 2015
页码 80
总页数 11
原文格式 PDF
正文语种
中图分类神经科学 ; 生物医学工程 ; 生物医学工程的其他分支 ; 康复 ;
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专利

1. The feasibility of a brain-computer interface functional electrical stimulation system for the restoration of overground walking after paraplegia [J] . Christine E. King, Po T. Wang, Colin M. McCrimmon, Journal of NeuroEngineering Rehabilitation . 2015 ,第1期

机译：脑电电脑界面功能电刺激系统的可行性在截瘫后恢复恢复
2. Restoration of Upper Limb Function After Chronic Severe Hemiplegia A Case Report on the Feasibility of a Brain-Computer Interface-Triggered Functional Electrical Stimulation Therapy [J] . Jovanovic Lazar I., Kapadia Naaz, Lo Lorna, American Journal of Physical Medicine and Rehabilitation . 2020 ,第3期

机译：慢性严重偏瘫后上肢功能恢复案例报告脑 - 计算机界面触发功能电刺激治疗的可行性
3. Functional electrical stimulation-assisted walking for persons with incomplete spinal injuries: changes in the kinematics and physiological cost of overground walking. [J] . Ladouceur M, Barbeau H Scandinavian journal of rehabilitation medicine . 2000 ,第2期

机译：脊髓不完全受伤者的功能性电刺激辅助步行：地面步行的运动学和生理学成本的变化。
4. Brain-computer interface driven functional electrical stimulation system for overground walking in spinal cord injury participant [C] . King Christine E., Wang Po T., McCrimmon Colin M., Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2014

机译：脑计算机接口驱动的功能性电刺激系统，用于脊髓损伤参与者的地面行走
5. A Sensorimotor Rhythm (SMR)-Based Brain-Computer Interface (BCI) Controlled Functional Electrical Stimulation (FES) for Restoration of Hand Grasping and Extension Functions. [D] . Choi, Inchul. 2017

机译：基于感觉运动节律（SMR）的脑机接口（BCI）控制的功能性电刺激（FES），用于恢复手部抓握和伸展功能。
6. Brain-Computer Interface Driven Functional Electrical Stimulation System for Overground Walking in Spinal Cord Injury Participant [O] . Christine E. King, Po T. Wang, Colin M. McCrimmon, -1

机译：脑计算机接口驱动的功能性电刺激系统用于脊髓损伤参与者的地面行走
7. The feasibility of a brain-computer interface functional electrical stimulation system for the restoration of overground walking after paraplegia [O] . 2015

机译：脑机接口功能电刺激系统在截瘫后恢复地面行走的可行性

The feasibility of a brain-computer interface functional electrical stimulation system for the restoration of overground walking after paraplegia

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