Medical

Age-related macular degeneration patient receives bionic eye transplant

Age-related macular degeneration patient receives bionic eye transplant
The 80-year-old Raymond Flynn was the first to receive the implant for AMD treatment
The 80-year-old Raymond Flynn was the first to receive the implant for AMD treatment
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The 80-year-old Raymond Flynn was the first to receive the implant for AMD treatment
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The 80-year-old Raymond Flynn was the first to receive the implant for AMD treatment
The Argus II System is designed to stimulate a patient's remaining retinal cells, allowing them to obtain useful visual information
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The Argus II System is designed to stimulate a patient's remaining retinal cells, allowing them to obtain useful visual information

You might remember the Argus II implant from when it first gained market approval in the US back in 2013. The ambitious prosthesis is back, with researchers now looking to utilize the technology to treat patients with dry age-related macular degeneration (AMD). The effort forms part of a feasibility study, and early results are positive.

The Argus II Retinal Prosthesis System, built by Second Sight, is designed to stimulate a patient's remaining retinal cells, allowing them to obtain useful visual information. Images are captured by a small, glasses-mounted camera, converted into electrical pulses, and wirelessly transmitted to electrodes implanted onto the surface of the retina.

Providing the implant works as intended, the patient will perceive patterns of light, which they can learn to interpret, thus regaining some degree of sight. It's software-based, and will likely provide improved results as testing continues.

Back in 2013, the implant received market approval from the Food and Drug Administration (FDA) in the US, for the treatment of Retinitis Pigmentosa (RP) – a degenerative condition that affects the peripheries of patient vision. Fast-forward two years and zip across the Atlantic, and the device is now being tested for the first time on a patient suffering from dryAMD . The big difference here is that AMD affects central vision, rather than peripheral sight.

The Argus II System is designed to stimulate a patient's remaining retinal cells, allowing them to obtain useful visual information
The Argus II System is designed to stimulate a patient's remaining retinal cells, allowing them to obtain useful visual information

The procedure was carried out at the Manchester Royal Eye Hospital in the United Kingdom, by Dr. Paulo Strange MD. The device was activated two weeks after being implanted, with early tests indicating that the 80-year-old subject, Raymond Flynn, was already receiving useful vision from the system.

Though this is only the first test using the implant for AMD sufferers, those initial positive results are extremely promising. In the long run, it could provide a new course of action for the estimated two million people who are legally blind due to AMD, for which there are few approved treatments.

"We are very excited to begin such an important study for this patient population and to have the opportunity to help a great deal more people living with blindness," says Second Sight's Executive Officer, Dr. Robert Greenberg. "Though it is obviously still early in this clinical trial, we are very encouraged by these initial results."

Mr. Flynn is the first of five patients who fill form the initial feasibility study, wherein the safety and effectiveness of the system for AMD sufferers will be evaluated. If the positive results continue, a larger study will take place, with the eventual goal of market approval for AMD treatment.

For more on the use of the Argus II System on dry AMD sufferers, you can take a look at the video below.

Source: Second Sight

Argus II - Retinal Implant - Bionic Eye - Retinal Prosthesis System

1 comment
1 comment
UncleToad
They don't mention whether the patient experiences any discomfort from having a small box of electronics stuck behind their eye. Or maybe the whole thing is smaller than it looks in the illustrations.
I wonder if a better longer term solution would be to use stem cells from the patient to grow a new retina.
Paul