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We are searching for a way to generate neural function recovery by introducing an implantable microelectronic system. Prototypes of the so-called microelectronic neural-bridging systems have been realized in the form of integrated circuits. The integrated circuits were realized in a standard CMOS process. In a series of animal experiments, we have demonstrated that an interrupted spinal cord could...
This paper gives an introduction on the neural signal sensing of the system of microelectronic-embedded channel bridge and signal regeneration of injured spinal cords and periphery nerves. For neural signal sensing, electrode arrays of both cuff and needle types were used. For neural signal amplifying, the circuits realized with discrete devices and in CMOS process will be discussed. The application...
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