AI Article Synopsis
- The potential of electrical stimulation in the visual cortices could help restore vision for blind individuals, but current prosthetic advancements still have limitations in providing full vision restoration.
- Renewed interest in this area is spurred by technological improvements, though challenges remain, particularly in the safe and effective stimulation of brain tissue.
- The review examines electrode-based visual prosthetics, focusing on the interface between electrodes and tissue, insights into perception through stimulation, and the ongoing challenges in design and implementation for future visual prosthetics.
Article Abstract
The electrical stimulation of the visual cortices has the potential to restore vision to blind individuals. Until now, the results of visual cortical prosthetics have been limited as no prosthesis has restored a full working vision but the field has shown a renewed interest these last years, thanks to wireless and technological advances. However, several scientific and technical challenges are still open to achieve the therapeutic benefit expected by these new devices. One of the main challenges is the electrical stimulation of the brain itself. In this review, we analyse the results in electrode-based visual cortical prosthetics from the electrical point of view. We first describe what is known about the electrode-tissue interface and safety of electrical stimulation. Then we focus on the psychophysics of prosthetic vision and the state-of-the-art on the interplay between the electrical stimulation of the visual cortex and the phosphene perception. Lastly, we discuss the challenges and perspectives of visual cortex electrical stimulation and electrode array design to develop the new generation implantable cortical visual prostheses.
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| http://dx.doi.org/10.1080/03091902.2021.1907468 | DOI Listing |
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