A System to Integrate Electrical Stimulation With Robotically Controlled Treadmill Training to Rehabilitate Stepping After Spinal Cord Injury

Chao T.; Askari S.; De Leon R.; Won D.

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A System to Integrate Electrical Stimulation With Robotically Controlled Treadmill Training to Rehabilitate Stepping After Spinal Cord Injury

机译：一种将电刺激与机器人控制的跑步机训练相集成的系统，以恢复脊髓损伤后的踏步

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A functional electrical stimulation (FES) system was engineered to integrate information from a robotically controlled position during stepping in order to time stimulation to continuous gait information in a rodent model of spinal cord injury (SCI). In contrast to conventional FES systems which have a fixed timing pattern relative to gait cycle onset (i.e., toe off/heel off or paw contact/heel strike), this system allows adaptation of stimulation to a robotically controlled position. Rationale for the system design is presented along with bench-test results verifying the timing of the stimulation with respect to hindlimb position. This robotically timed FES system will enable studies investigating the capability of this FES therapy to encourage rehabilitation by way of spinal plasticity.

机译：设计了功能性电刺激（FES）系统，以在步进过程中集成来自机器人控制位置的信息，以便在脊髓损伤（SCI）的啮齿动物模型中将刺激时间定为连续步态信息。与相对于步态周期开始具有固定定时模式（即，脚趾脱开/脚跟脱开或脚掌接触/脚跟触击）的常规FES系统相反，该系统允许刺激适应于机器人控制的位置。提出了系统设计的基本原理，并通过台架测试结果验证了相对于后肢位置的刺激时机。这种由机器人定时的FES系统将使研究人员能够研究这种FES疗法通过脊柱可塑性鼓励康复的能力。

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《Neural Systems and Rehabilitation Engineering, IEEE Transactions on》 |2012年第5期|p.730-737|共8页
作者
Chao T.; Askari S.; De Leon R.; Won D.;
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EMG; functional electrical stimulation (FES); kinematics; neuromuscular electrical stimulation (NMES); rehabilitation; robotic treadmill training; rodent model; spinal cord injury;

机译：肌电图;功能性电刺激（FES）;运动学;神经肌肉电刺激（NMES）;康复训练;机器人跑步机训练;啮齿动物模型;脊髓损伤;

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1. Response to Letter to the Editor by Dr Cao regarding paper titled - "Is body-weight-supported treadmill training or robotic-assisted gait training superior to overground gait training and other forms of physiotherapy in people with spinal cord injury? A systematic review" [J] . Mehrholz Jan, Harvey Lisa A., Thomas Simone, Spinal cord: the official journal of the International Medical Society of Paraplegia . 2019,第5期

机译：曹议员对撰写的纸张博士响应题为 - “是”身体重量支持的跑步机训练或机器人辅助步态培训优于脊髓损伤的人的地面步态培训和其他形式的物理疗法？一个系统的评论“
2. Is body-weight-supported treadmill training or robotic-assisted gait training superior to overground gait training and other forms of physiotherapy in people with spinal cord injury? A systematic review [J] . Cao Genmao Spinal cord: the official journal of the International Medical Society of Paraplegia . 2019,第5期

机译：身体重量支持的跑步机训练或机器人辅助步态培训优于脊髓损伤的人的地下步态培训和其他形式的物理治疗吗？系统评价
3. Author Correction: Is body-weight supported treadmill training or robotic-assisted gait training superior to overground gait training and other forms of physiotherapy in people with spinal cord injury? A systematic review. [J] . J Mehrholz, L A Harvey, S Thomas, Spinal cord: the official journal of the International Medical Society of Paraplegia . 2018,第4期

机译：作者纠正：是体重支持的跑步机训练或机器人辅助步态培训优于地下步态训练和其他形式的脊髓损伤的物理治疗？系统审查。
4. Multivariate assessment of differences between a neuromuscular electrical stimulation therapy and robotic treadmill training in the rehabilitation of spinal cord injured rats [C] . Sanchez, Patricia, Agarwal, Ankit, Askari, Sina, Annual Conference of Japanese Society for Medical and Biological Engineering;Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2013

机译：脊髓损伤大鼠神经肌肉电刺激疗法和机器人跑步机训练之间差异的多变量评估
5. Developing and Validating a Functional Electrical Stimulation Controller for Use with Visual Feedback Training for Standing Balance Therapy in Individuals with Incomplete Spinal Cord Injury [D] . Grabke, Emerson Paul. 2019

机译：开发和验证功能电气刺激控制器，用于静止脊髓损伤不完全脊髓损伤的个体平衡疗法的视觉反馈训练
6. Robot-applied resistance augments the effects of body weight supported treadmill training on stepping and synaptic plasticity in a rodent model of spinal cord injury [O] . Erika Hinahon, Christina Estrada, Lin Tong, -1

机译：在脊髓损伤的啮齿动物模型中机器人施加的阻力增强了体重支持的跑步机训练对踩踏和突触可塑性的影响
7. Letter to the Editor: “Is body-weight-supported treadmill training or robotic-assisted gait training superior to overground gait training and other forms of physiotherapy in people with spinal cord injury? A systematic review” [O] . Genmao Cao 2019

机译：致编辑的信：“是身体重量支持的跑步机训练或机器人辅助步态培训优于脊髓损伤的人的地下步态培训和其他形式的物理治疗？系统评价“

A System to Integrate Electrical Stimulation With Robotically Controlled Treadmill Training to Rehabilitate Stepping After Spinal Cord Injury

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