Decision time? Check out our latest product comparisons

First advanced prototype revealed for the Australian bionic eye

By

March 31, 2010

Bionic vision - ironically, we only have low-resolution images.

Bionic vision - ironically, we only have low-resolution images.

Image Gallery (2 images)

Researchers at Bionic Vision Australia (BVA) have produced a prototype version of a bionic eye implant that could be ready to start restoring rudimentary vision to blind people as soon as 2013. The system consists of a pair of glasses with a camera built in, a processor that fits in your pocket, and an ocular implant that sits against the retina at the back of the eye and electronically stimulates the retinal neurons that send visual information to the brain. The resulting visual picture is blocky and low-res at this point, but the technology is bound to improve, and even in its current form it's going to be a major life-changer for those with no vision at all. And the future potential - even for sighted people - is fascinating.

Thanks to an Australian government injection of almost $40 million in 2009, Bionic Vision Australia has been able to revise the timeline of its innovative bionic eye program from "around 2020" to as close as three years away. This week, researchers demonstrated a prototype of the device they hope will begin restoring sight to blind people as early as 2013.

How it works

The retina can be very simplistically described as a matrix of nerve cells that fire when they're struck by certain types and levels of light. Those neurons send an electrical signal back to the brain's visual cortex, where information about color, light intensity, edges and lots of other interesting stuff is reassembled and the brain can begin processing it to try to work out what's going on - working out what objects you're looking at, what's moving, what's important.

It's an incredibly complex and fascinating system, but it all starts with the retina, where light that comes into the eye is converted to nerve impulses. You could view the bionic eye implant as an aftermarket replacement for a retina that's no longer capable of performing this function.

BVA's bionic eye works in a similar way to the US-based Argus II system. A small camera is mounted on top of a pair of glasses, and the resulting images are sent to a small processor unit that can be kept in a patient's pocket. This processor sends a crunched image to a tiny 2x4mm chip that's implanted directly onto the retina - and the chip directly stimulates the visual neurons, sending a rough visual signal to the brain for processing.

The resolution challenge

The challenge in bionic eye design is not to get a signal through to the brain, but to improve the resolution and detail of that signal. The first version of the Argus system had only 16 electrodes, so it effectively sent a 16-"pixel" image to the brain. The next-gen Argus II carries 60 electrodes.

The prototype unveiled this week by BVA is a little more advanced, but still quite rudimentary in the scheme of things. It offers 100 electrodes - so the eventual picture will still be blocky and difficult for somebody with normal vision to interpret. But researchers say it will be enough to give enough vision to a patient to let them walk around without assistance: "Patients would be able to contrast light from dark and move more independently, with the ability to distinguish large objects and to avoid walking into them. They will be able to see outlines such as buildings, cars and park benches. This prototype should be ready for the first human implant in 2011."

A simulation of how vision might improve between the two prototypes, and beyond.

The second prototype model they're working on for its first trial run in 2013 is more exciting - with 1000-electrode resolution, the picture will become a lot clearer for patients who receive the implant. We're talking 20/80 vision, or more than enough to recognize faces, read large print and generally integrate much better into a visually-focused world.

Looking into the future

Beyond these two prototype stages, it should theoretically be possible to improve the device up to and even beyond the capability of a working human eye. At that stage, all sorts of things become possible, from bionic super-vision, to the ability to see infra-red, night vision or X-ray content, to the ability to relay augmented reality "terminator vision" directly to the visual cortex.

You could magnify images without binoculars, run software algorithms to block out bright sunlight and glare so you'd never need sunglasses, or watch a video in one eye while the other's free to let you walk around. And just imagine the potential for virtual reality and immersive movies that are played out directly into your own eyes...

Communicating directly through an implant to the brain's visual cortex is a very exciting area of technology that's currently in its infancy but has massive future potential. And while there's immediate benefits in sight for the blind, it's fascinating to speculate where this might lead for the rest of us.

About the Author
Loz Blain Loz has been one of Gizmag's most versatile contributors since 2007. Joining the team as a motorcycle specialist, he has since covered everything from medical and military technology to aeronautics, music gear and historical artefacts. Since 2010 he's branched out into photography, video and audio production, and he remains the only Gizmag contributor willing to put his name to a sex toy review. A singer by night, he's often on the road with his a cappella band Suade.   All articles by Loz Blain
Tags
2 Comments

Would this still work if someone had already had their eyes surgically removed?

Katia Luto
1st April, 2010 @ 05:42 am PDT

"watch a video in one eye while the other's free to let you walk around"

This would be much more of a challenge for the brain than for the eyes... unless you are an Apache helicopter pilot: the need to focus with one eye on a tiny "retina display" and the other on the cockpit trains their brains to the point that they can read one book with one eye and one with the other, at the same time... at the costs of months of headaches.

Indeed, all these "eye" enanchments might have a bright future in military applications... but the thought of them malfunctioning is quite scary...

Giolli Joker
30th August, 2012 @ 03:35 am PDT
Post a Comment

Login with your gizmag account:

Or Login with Facebook:


Related Articles
Looking for something? Search our 29,008 articles