A device that “bypasses” the entire eyeball by sending messages to the brain of the blind was developed by researchers from EPFL in Switzerland and the Scuola Superiore Sant’Anna in Italy. The device directly stimulates the optic nerve with a new generation electrode called OpticSELINE. In the study, published in Nature Biomedical Engineering, positive findings have already been reported in experiments performed on rabbits.
The intraneural stimulation device is based on the production of phosphenes through which users can “see” the light bypassing the eye. The basic technology is already part of different types of retinal implants but these prosthetic devices are not suitable for all pathologies. For example, people with retinitis pigmentosa usually cannot benefit from this technology.
On the other hand, other devices that act directly on the brain, such as brain implants that directly stimulate the visual cortex, are still considered risky. This new intraneural solution can in a certain sense be considered as a middle way that collects the positive aspects of both technologies.
In addition to providing visual information useful to patients, these devices are stable and, once implanted, are less likely to move. The electrodes, in fact, are positioned through a surgical operation around and through the nerve.
Researchers have also developed an algorithm to decode cortical signals because each electrode-induced stimulation induces a specific and unique model in the brain.
Diego Ghezzi, one of the authors of the study, states: “For now, we know that intraneural stimulation has the potential to provide visual information models. It will take feedback from patients in future clinical trials to develop these patterns. From a purely technological perspective, we could do clinical trials tomorrow.”
4846 Charmaine Lane, Levelland Texas, 79336
Latest posts by Mark Romando (see all)
- Supernova that completely destroys the star discovered by astronomers - December 6, 2019
- Melting of Greenland glaciers will require more Americans to move more inland - November 30, 2019
- Intraneural electrode bypasses the eye and provides visual signals to the brain - November 7, 2019