Simultaneous surface and depth neural activity recording with graphene transistor-based dual-modality probes

Publication date: 15 May 2018
Source:Biosensors and Bioelectronics, Volume 105
Author(s): Mingde Du, Xianchen Xu, Long Yang, Yichuan Guo, Shouliang Guan, Jidong Shi, Jinfen Wang, Ying Fang
Subdural surface and penetrating depth probes are widely applied to record neural activities from the cortical surface and intracortical locations of the brain, respectively. Simultaneous surface and depth neural activity recording is essential to understand the linkage between the two modalities. Here, we develop flexible dual-modality neural probes based on graphene transistors. The neural probes exhibit stable electrical performance even under 90° bending because of the excellent mechanical properties of graphene, and thus allow multi-site recording from the subdural surface of rat cortex. In addition, finite element analysis was carried out to investigate the mechanical interactions between probe and cortex tissue during intracortical implantation. Based on the simulation results, a sharp tip angle of π/6 was chosen to facilitate tissue penetration of the neural probes. Accordingly, the graphene transistor-based dual-modality neural probes have been successfully applied for simultaneous surface and depth recording of epileptiform activity of rat brain in vivo. Our results show that graphene transistor-based dual-modality neural probes can serve as a facile and versatile tool to study tempo-spatial patterns of neural activities.

Graphical abstract

http://ift.tt/2EDcJT6