A bionic eye gives the gift of sight to the blind

It sounds like science fiction, but for the first time, bionic eyes can help those with vision problems.

And these little devices come with a big impact.

They restore vision, giving the blind the gift of sight.

Larry and Jerry Hester's love story spans more than four decades.

But just after their 10 year anniversary, a genetic disorder known as retinitis pigmentosa robbed Larry of his sight.

"If my sight was ever completely restored the very first thing I would want to do was to see my wife,” Larry said.

He's now closer to that reality, as a candidate for a new bionic eye at Duke University Hospital.

"We can for the first time restore vision that was once considered to be permanently lost," explains Duke Eye Center Retinal Ophthalmologist Doctor Paul Hahn.

A miniature video camera picks up images that are sent to a micro-processor and wirelessly transmitted to a computer chip in the eye.

Patients then learn to see in a new way.

"So they're not going to see the way you or I see,” Hahn said. “Instead, Larry will see high contrast items of light and dark and identify movement - maybe even see his grandchildren for the first time.”

“Words really can't express how exciting it is and how thrilling it is," Larry said.

His wife, Jerry, shares the excitement.

"It's this joy that's unspeakable," she said.

The bionic eye known as the Argus II is now offered in 13 sites around the country.

It's currently only approved for those with retinitis pigmentosa.

In the future, it could help restore vision for other types of blindness.

The gift of sight does comes with a price tag.

The procedure runs about $145,000.

There is good news though, nationally, Medicare has approved reimbursement.
MEDICAL BREAKTHROUGHS
RESEARCH SUMMARY

TOPIC: BIONIC EYE BREAKTHROUGH-HELPING THE BLIND TO SEE
REPORT: MB #3745

BACKGROUND: Retinitis pigmentosa (RP) is an eye disease in which there is damage to the retina. The retina is the layer of tissue at the back of the inner eye. It converts light images to nerve signals, and then sends those signals back to the brain. This can cause decreased vision at night or in low light, loss of peripheral vision, and loss of central vision. Retinitis pigmentosa affects one in 4,000 people in the United States. Retinitis pigmentosa can run in families. The cells controlling night vision are most likely to be affected. However, in some cases, retinal cone cells are damaged the most. The main sign of the disease is the presence of dark deposits in the retina. (Source: http://www.ncbi.nlm.nih.gov/pubmedhealth/PMH0002024/)

SYMPTOMS: Symptoms usually start during young adulthood, although RP may be seen at any age and include night blindness and loss of peripheral vision. Symptoms may not necessarily mean you have the disease, but if you experience one or more, you should contact your eye doctor for a complete eye exam. (Source: http://www.kellogg.umich.edu/patientcare/conditions/pigmentosa.html)

TREATMENT: There are currently very few treatments available for RP. Sometimes, the degeneration can be slowed to preserve vision for a longer time. Genetic studies of RP are a significant factor in finding a cure or prevention for this disease. (Source: http://www.kellogg.umich.edu/patientcare/conditions/pigmentosa.html)

NEW TECHNOLOGY: The bionic eye, also known as the Argus II system, can restore vision that was once considered permanently lost. The retinal implant restores visual impulses. The FDA approved the device in 2013 for use in adults 25 years or older. It does not restore normal 20-20 vision, but a patient with the device may be able to follow the lines of a crosswalk or sort laundry. After the implant surgery the patient wears glasses with an attached camera and a portable video processor. The video camera inside the patient's glasses captures a scene. The video is then sent to the computer, where it is processed and transformed into instructions that are sent back to the glasses. The instructions are transmitted wirelessly to an electrode array implanted on the retinal surface. Small pulses of electricity are emitted. These pulses bypass the damaged photo receptors and stimulate the retina's remaining healthy cells. The visual information is transmitted along the optic nerve to the brain. This creates the perception of light. Patients can learn to interpret these visual patterns with their retinal implant. The chip has 60 pixels; so when stimulated the patient can see flashes of light of high contrast items, certain colors, large letters and they can sort objects. The bionic eye is intended for patients with severe to profound RP. (Source: Duke University)

FOR MORE INFORMATION, PLEASE CONTACT:

Teikko Artis
In the office of Dr. Paul Hahn
Duke University
919-684-5631

If this story or any other Ivanhoe story has impacted your life or prompted you or someone you know to seek or change treatments, please let us know by contacting Marjorie Bekaert Thomas at mthomas@ivanhoe.com


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