New Wirelessly Powered Scalable Retinal Prosthesis, University of California, San Diego (UCSD) Reveals

This article was originally published here

A collaboration between researchers at University of California San Diego and Nanovision Biosciences, a university spinoff, has developed a method for constructing wirelessly powered retinal prostheses that interface directly with retinal cells.

Primary cortical neurons cultured on the surface of an array of optoelectronic nanowires. Here a neuron is pulling the nanowires, indicating the the cell is doing well on this material.

The implant is structured from photosensitive silicon nanowires and, because they produce a textured surface, retinal cells are able to grow on them. Powering the array is a novel wireless system, that sits on the head near the eye, and provides current to all the nanowires simultaneously.  Changes in light incident onto the nanowires produces a change in the electric signal delivered to cells on the other side of the implant.

The structure of nanowires can be made to be of any size and shape, allowing it to be customized for different ocular anatomies, and the density of the nanowires is much higher than the pixel density of existing retinal prostheses.

The new device was tested in the eyes of lab rats. Here’s a short summary according to UCSD:

For proof-of-concept, the researchers inserted the wirelessly powered nanowire array beneath a transgenic rat retina with rhodopsin P23H knock-in retinal degeneration. The degenerated retina interfaced in vitro with a microelectrode array for recording extracellular neural action potentials (electrical “spikes” from neural activity).

The horizontal and bipolar neurons fired action potentials preferentially when the prosthesis was exposed to a combination of light and electrical potential—and were silent when either light or electrical bias was absent, confirming the light-activated and voltage-controlled responsivity of the nanowire array.

Recent flashback: Artificial Retina Made of Organic Photovoltaic Material Lets Blind Rats See…

Study in Journal of Neural Engineering: Towards high-resolution retinal prostheses with direct optical addressing and inductive telemetry…

Via: UCSD…

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