Neural activity of functionally different retinal ganglion cells can be robustly modulated by high-rate electrical pulse trains
Objective. This study focused on characterising the response of four major functionally-
different retinal ganglion cells (RGCs) to a high frequency stimulus (HFS) paradigm …
different retinal ganglion cells (RGCs) to a high frequency stimulus (HFS) paradigm …
Short pulses of epiretinal prostheses evoke network-mediated responses in retinal ganglion cells by stimulating presynaptic neurons
Objective. Microelectronic retinal implant aims to restore functional vision with electric
stimulation. Short pulses are generally known to directly activate retinal ganglion cells …
stimulation. Short pulses are generally known to directly activate retinal ganglion cells …
[PDF][PDF] Characterising Functionally-Distinct Retinal Ganglion Cell Responses to High Frequency Electrical Stimulation
M Muralidharan - 2021 - unsworks.unsw.edu.au
Retinal implants aim to provide artificial vision to those profoundly blind by stimulating the
residual network to elicit visual percepts. While human clinical trials have demonstrated …
residual network to elicit visual percepts. While human clinical trials have demonstrated …