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- Title
High-Fidelity Reproduction of Visual Signals by Electrical Stimulation in the Central Primate Retina.
- Authors
Gogliettino, Alex R.; Madugula, Sasidhar S.; Grosberg, Lauren E.; Vilkhu, Ramandeep S.; Brown, Jeff; Huy Nguyen; Kling, Alexandra; Hottowy, Paweł; Dąbrowski, Władysław; Sher, Alexander; Litke, Alan M.; Chichilnisky, E. J.
- Abstract
Electrical stimulation of retinal ganglion cells (RGCs) with electronic implants provides rudimentary artificial vision to people blinded by retinal degeneration. However, current devices stimulate indiscriminately and therefore cannot reproduce the intricate neural code of the retina. Recent work has demonstrated more precise activation of RGCs using focal electrical stimulation with multielectrode arrays in the peripheral macaque retina, but it is unclear how effective this can be in the central retina, which is required for high-re)solution vision. This work probes the neural code and effectiveness of focal epiretinal stimulation in the central macaque retina, using large-scale electrical recording and stimulation ex vivo. The functional organization, light response properties, and electrical properties of the major RGC types in the central retina were mostly similar to the peripheral retina, with some notable differences in density, kinetics, linearity, spiking statistics, and correlations. The major RGC types could be distinguished by their intrinsic electrical proper)ties. Electrical stimulation targeting parasol cells revealed similar activation thresholds and reduced axon bundle activation in the cen)tral retina, but lower stimulation selectivity. Quantitative evaluation of the potential for image reconstruction from electrically evoked parasol cell signals revealed higher overall expected image quality in the central retina. An exploration of inadvertent midget cell acti)vation suggested that it could contribute high spatial frequency noise to the visual signal carried by parasol cells. These results support the possibility of reproducing high-acuity visual signals in the central retina with an epiretinal implant.
- Subjects
ELECTRIC stimulation; RETINAL ganglion cells; RETINA; ARTIFICIAL vision; ACTIVATION energy
- Publication
Journal of Neuroscience, 2023, Vol 43, Issue 25, p4625
- ISSN
0270-6474
- Publication type
Article
- DOI
10.1523/JNEUROSCI.1091-22.2023