Neural signal regeneration and motor function rebuilding of paralyzed limbs based on principles of communication incorporated with microwave transmission system

Zhigong Wang, Xiaoying Lu, Yang Xia, Zonghao Huang, Yuxuan Zhou, Sihao Zong, Wen-Yuan Li, Xintai Zhao, Jian Xu, Jingdong Yang, Suyang Wang, Haipeng Wang, Xueliang Bao, Bilei Wang, Ming Ma
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Abstract

In this presentation the motor function rebuilding of paralyzed limbs of the paraplegic patients caused by spinal cord injury and the hemiplegic patients after stroke and SCI is concerned. The biomedical methods and the traditional physical methods for the rehabilitation of two kinds of paralyses are reviewed. The core part is to discuss the neural and muscular signal regeneration and the limb function rebuilding based on the principles of communication and functional electrical stimulation - a novel concept developed by the speakers. For the communication, a microwave transmission system is incorporated. The construction of the whole bio-electronic system, the animal experiments, and the elementary experiments on healthy and paralyzed patients will be demonstrated.
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基于通信原理结合微波传输系统的瘫痪肢体神经信号再生与运动功能重建
本文就脊髓损伤所致截瘫患者及脑卒中及脊髓损伤后偏瘫患者的肢体瘫痪运动功能重建进行了研究。综述了两类瘫痪的生物医学康复方法和传统物理康复方法。核心部分是讨论基于通讯原理和功能性电刺激的神经和肌肉信号再生和肢体功能重建。在通信方面,采用了微波传输系统。将展示整个生物电子系统的构建、动物实验以及健康和瘫痪患者的基础实验。
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