Nur Ahmadi1, Matthew Luke Cavuto1, Peilong Feng1, Lieuwe Leene1, Michal Maslik1, Federico Mazza1, Oscar Savolainen1, Katarzyna Maria Szostak2, Christos-Savvas Bouganis1, Jinendra Ekanayake3, Andrew Jackson4, Timothy Constandinou
16:30 - 18:30 | Thu 21 Mar | Grand Ballroom A | ThPO.175
16:30 - 18:30 | Thu 21 Mar | Grand Ballroom B | ThPO.175
We present a platform technology encompassing a family of innovations that together aim to tackle key challenges with existing implantable brain machine interfaces. The ENGINI (Empowering Next Generation Implantable Neural Interfaces) platform utilizes a 3-tier network (external processor, cranial transponder, subdural probes) to inductively couple power to, and communicate data from, a distributed array of freely-floating mm-scale probes. Novel features integrated into each probe include: (1) an array of niobium microwires for observing low frequency local field potentials (lf-LFPs) along the cortical column; (2) ultra-low power instrumentation for signal acquisition and data reduction; (3) autonomous, self-calibrating wireless transceiver for receiving power and transmitting data; and (4) a hermetically-sealed micropackage suitable for chronic use. We are additionally engineering a surgical tool, to facilitate manual and robot-assisted insertion, within a streamlined neurosurgical workflow. Ongoing work is focused on system integration and preclinical testing.