Artificial Vision & Neural Engineering
Non-rectangular waveforms are more charge-efficient for network-mediated responses of ON type retinal ganglion cells
Network-mediated responses of ON ganglion cells to electric stimulation alter over the course of retinal degeneration
Network-mediated responses of ON ganglion cells to electric stimulation become less consistent across trials during retinal degeneration,
Network-mediated responses of ON ganglion cells to electric stimulation become less consistent across trials during retinal degeneration
Network-mediated responses of ON ganglion cells to electric stimulation change over the course of retinal degeneration
Electric stimulus duration modulates network-mediated responses depending on ganglion cell type
Electric stimulus duration alters network-mediated responses depending on retinal ganglion cell type
Temporal properties of network-mediated responses to repetitive stimuli are different in ON vs. OFF retinal ganglion cells
Spatial properties of network-mediated response of retinal ganglion cells to electric stimulation
Network-mediated activation elicits strong correlations between light and electrical responses in ON but not OFF ganglion cells
Indirect activation elicits strong correlations between light and electrical responses in ON but not OFF ganglion cells
Implantable neural probes for chronic electrical recording and optical stimulation,
ON-OFF DS ganglion cells detect motion and suppress luminance responses during natural viewing
Spheroid cell culture on PDMS hydrophobic surfaces and integration into microfluidic devices
A dual-shank neural probe integrated with double waveguides on each shank for optogenetic applications