Spatially Localized Visual Perception Estimation by Means of Prosthetic Vision Simulation.

Retinal prosthetic devices aim to repair some vision in visually impaired patients by electrically stimulating neural cells in the visual system. Although there have been several notable advancements in the creation of electrically stimulated small dot-like perceptions, a deeper comprehension of the physical properties of phosphenes is still necessary. This study analyzes the influence of two independent electrode array topologies to achieve single-localized stimulation while the retina is electrically stimulated: a two-dimensional (2D) hexagon-shaped array reported in clinical studies and a patented three-dimensional (3D) linear electrode carrier.

A Treatise on Electrode Carrier Dislocation in Visual Prosthetic Devices.

Visual implants electrically activate adjacent neurons to induce artificial perception for visual impairment patients to restore some sight. Proximity of electrode carrier to the ganglion cell has attracted careful consideration due to its implications on secure electrochemical and single-localized stimulation. In this study, we postulate a novel strategy to treat the proximity of electrode-cell.