Wednesday, March 4, 2009

Bionic eyes getting closer to reality?


The BBC reports that a prototype bionic eye is proving successful in trials.

A man who lost his sight 30 years ago says he can now see flashes of light after being fitted with a bionic eye.

Ron, 73, had the experimental surgery seven months ago at London's Moorfield's eye hospital.

He says he can now follow white lines on the road, and even sort socks, using the bionic eye, known as Argus II.

. . .

The bionic eye has been developed by US company Second Sight. So far 18 patients across the world, including three at Moorfields, have been fitted with the device.

It is designed to help people, like Ron, who have been made blind through retinitis pigmentosa, a group of inherited eye diseases that cause degeneration of the retina.

The disease progresses over a number of years, normally after people have been diagnosed when they are children.

It is estimated between 20,000 to 25,000 are affected in the UK.

Ron, who has not revealed his surname, told the BBC: "For 30 years I've seen absolutely nothing at all, it's all been black, but now light is coming through. Suddenly to be able to see light again is truly wonderful.

"I can actually sort out white socks, grey socks and black socks."

"My one ambition at the moment is to be able to go out on a nice, clear evening and be able to pick up the moon."

Ron's wife Tracy is also hugely encouraged by the progress he has made.

She said: "He can do a lot more now than he could before, doing the washing, being able to tell white from a coloured item.

"I've taught him how to use the washing machine and away he goes. It's just the ironing next."


There's more at the link.

Intrigued, I looked up the manufacturer, Second Sight, and found their Web site. They say of their invention:

The device consists of a tiny camera and transmitter mounted in eyeglasses, an implanted receiver, and an electrode-studded array that is secured to the retina with a microtack the width of a human hair. A wireless microprocessor and battery pack worn on the belt powers the entire device.




The camera on the glasses captures an image and sends the information to the video processor, which converts the image to an electronic signal and sends it to the transmitter on the sunglasses. The implanted receiver wirelessly receives this data and sends the signals through a tiny cable to the electrode array, stimulating it to emit electrical pulses. The pulses induce responses in the retina that travel through the optic nerve to the brain, which perceives patterns of light and dark spots corresponding to the electrodes stimulated. Patients learn to interpret the visual patterns produced into meaningful images.




Second Sight’s first generation Argus 16 implant consists of a 16 electrode array and a relatively large implanted receiver implanted behind the ear. The second generation Argus II is designed with a 60 electrode array and a much smaller receiver that is implanted around the eye.


Impressive! That's pretty exciting news for those afflicted with serious vision problems. Perhaps the true 'bionic eye' will before long be more than just a dream of science fiction writers. Congratulations to Second Sight and everyone involved.

Peter

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