Arjun Fontaine1, Jacob Segil2, John Caldwell1, Richard Weir3
16:30 - 18:30 | Thu 21 Mar | Grand Ballroom B | ThPO.36
Improved neural interfacing strategies are needed for the full articulation of advanced prostheses. To address limitations of existing control interface designs, the work of our laboratory has presented an optical approach to reading activity from individual nerve fibers using activity-dependent calcium transients.Here, we demonstrate the feasibility of such signals to control prosthesis actuation by using the axonal fluorescence signal in an in vitro mouse nerve to drive a prosthetic digit in real-time. Additionally, signals of varying action potential frequency are streamed post hoc to the prosthesis, showing graded motor output and the potential for proportional neural control. This proof-of-concept work is a novel demonstration of the functional use of activity-dependent optical read-out in the nerve.