Brain implant helps blind woman to see simple shapes

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New York– A team of scientists in the US successfully created a form of artificial vision for a 60-year- old woman, who was fully blind for more than 16 years, using a prosthesis hardwired into her brain.

Berna Gomez of Elche, Spain, spent six months working with researchers to test an experimental visual prosthesis which used an electrode array, implanted into her brain’s visual cortex.

The Utah electrode array, developed by Richard A. Normann, a scientist at John A. Moran Eye Center at the University of Utah, could both record and stimulate the electrical activities of neurons.

Gomez, a former science teacher, wore eyeglasses equipped with a miniature video camera, specialised software encoded the visual data collected by the camera and sent it to the electrode array. The array then stimulated neurons to produce phosphenes, perceived by Gomez as white points of light, to create an image.

Gomez had no complications from the surgery and researchers determined that the electrode array did not impair the function of neurons in close proximity to the electrodes or affect the function of the underlying cortex.

Gomez was able to identify lines, shapes, and simple letters evoked by different patterns of stimulation. To help her practice using the prosthesis, researchers created a video game for Gomez to play using a character from the popular television show The Simpsons.

“These results are very exciting because they demonstrate both safety and efficacy,” said Eduardo Fernandez, Professor at Moran.

“We have taken a significant step forward, showing the potential of these types of devices to restore functional vision for people who have lost their vision,” he added in the paper published in The Journal of Clinical Investigation.

The team first used the electrode array in amputees to evaluate its safety and efficacy. The electrode array allowed the amputees to control artificial limbs simply with their desire to move a finger or hand.

“One goal of this research is to give a blind person more mobility,” said Normann. “It could allow them to identify a person, doorways, or cars easily. It could increase independence and safety. That’s what we’re working toward.”

The research team hopes the next set of experiments will use a more sophisticated image encoder system, capable of stimulating more electrodes simultaneously to reproduce more complex visual images. (IANS)



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