A Closed-Loop Neural Prosthesis for Restoration of Function after Traumatic Brain Injury

Abstract

We successfully completed the rodent aims and demonstrated that activity-dependent stimulation (ADS) was effective even when treatment was delayed up to 3 weeks post-injury. With the one-week post-injury initiation, 4 weeks of treatment resulted in recovery of motor performance that persisted for 8 weeks, the total duration of the follow-up period. Moreover, we were able to develop a fully assembled and packaged nonhuman primate (NHP) microdevice that was small enough to be housed within a chronic, skull-affixed, primate chamber. Over a 2-week monitoring period, the NHP microdevice remained fully functional in a simulated in vivo environment with elevated humidity and temperature. Finally, we were able to demonstrate the first NHP model of controlled cortical impact (CCI) injury designed for long-term behavioral assessment. We established procedures for implantation of the NHP microdevice within a chronic chamber and for microelectrodes implantation in target cortical locations. We also demonstrated that we could perform spike-triggered stimulation reliably in a squirrel monkey. We are now in an excellent position to test the ability of ADS to enhance behavioral recovery after such injuries.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 2020

Accession Number

AD1136198

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