A novel cost-effective fabrication of a flexible neural probe for brain signal recording
Abstract
This study introduces a novel, flexible, and implantable neural probe using a cost-effective microfabrication process based on a thin polyimide film. Polyimide film, known as Kapton, serves as a flexible substrate for microelectrodes, conductive tracks, and contact pads of the probe, which are made from a thin film of gold (Au). SU-8 is used to cover the corresponding tracks for electrical isolation and to increase the stiffness of the probe for better implantation. To evaluate the performance of the fabricated probe, electrochemical impedance spectroscopy (EIS) and artificial neural signal recording have been used to characterize its properties. The microelectrode dimensions have been carefully chosen to provide low impedance characteristics, which are necessary for acquiring local field potential (LFP) signals. The in vivo LFP data have been obtained from a male zebra finch presented with auditory stimuli. By properly filtering the extracellular recordings and analyzing the data, the obtained results have been validated by comparing them with the signals acquired with a commercial neural electrode. Due to the use of Kapton, SU-8, and Au materials with non-toxic and adaptable properties in the body environment, the fabricated neural probe is considered a promising biocompatible implantable neural probe that may pave the way for the fabrication of other neural implantable devices with commercial aims.