AUTHOR=Hayashida Yuki , Kameda Seiji , Umehira Yuichi , Ishikawa Shinnosuke , Yagi Tetsuya TITLE=Multichannel stimulation module as a tool for animal studies on cortical neural prostheses JOURNAL=Frontiers in Medical Technology VOLUME=4 YEAR=2022 URL=https://www.frontiersin.org/journals/medical-technology/articles/10.3389/fmedt.2022.927581 DOI=10.3389/fmedt.2022.927581 ISSN=2673-3129 ABSTRACT=

Intracortical microstimulation to the visual cortex is thought to be a feasible technique for inducing localized phosphenes in patients with acquired blindness, and thereby for visual prosthesis. In order to design effective stimuli for the prosthesis, it is important to elucidate relationships between the spatio-temporal patterns of stimuli and the resulting neural responses and phosphenes through pre-clinical animal studies. However, the physiological basis of effective spatial patterns of the stimuli for the prosthesis has been little investigated in the literature, at least partly because that the previously developed multi-channel stimulation systems were designed specifically for the clinical use. In the present, a 64-channel stimulation module was developed as a scalable tool for animal experiments. The operations of the module were verified by not only dry-bench tests but also physiological animal experiments in vivo. The results demonstrated its usefulness for examining the stimulus-response relationships in a quantitative manner, and for inducing the multi-site neural excitations with a multi-electrode array. In addition, this stimulation module could be used to generate spatially patterned stimuli with up to 4,096 channels in a dynamic way, in which the stimulus patterns can be updated at a certain frame rate in accordance with the incoming visual scene. The present study demonstrated that our stimulation module is applicable to the physiological and other future studies in animals on the cortical prostheses.