- Vatsyayan, Ritwik;
- Lee, Jihwan;
- Bourhis, Andrew M;
- Tchoe, Youngbin;
- Cleary, Daniel R;
- Tonsfeldt, Karen J;
- Lee, Keundong;
- Montgomery-Walsh, Rhea;
- Paulk, Angelique C;
- U, Hoi Sang;
- Cash, Sydney S;
- Dayeh, Shadi A
Electrophysiological recording and stimulation are the gold standard for functional mapping during surgical and therapeutic interventions as well as capturing cellular activity in the intact human brain. A critical component probing human brain activity is the interface material at the electrode contact that electrochemically transduces brain signals to and from free charge carriers in the measurement system. Here, we summarize state-of-the-art electrode array systems in the context of translation for use in recording and stimulating human brain activity. We leverage parametric studies with multiple electrode materials to shed light on the varied levels of suitability to enable high signal-to-noise electrophysiological recordings as well as safe electrophysiological stimulation delivery. We discuss the effects of electrode scaling for recording and stimulation in pursuit of high spatial resolution, channel count electrode interfaces, delineating the electrode-tissue circuit components that dictate the electrode performance. Finally, we summarize recent efforts in the connectorization and packaging for high channel count electrode arrays and provide a brief account of efforts toward wireless neuronal monitoring systems.