5 Top Foods for Eye Health

Do you find yourself squinting and straining to read the daily news and wondering why the writing on menus has become so small? Are you interested in keeping your vision sharp no matter what your age? If so, these five best foods for eye health are a natural way to give your vision a boost from the inside out! Continue reading

Planarians Offer a Better View of Eye Development

Planarian flatworms have come under intense study for their renowned ability to regenerate any missing body part, even as adults. But now they may take on a starring role as a model system for studying eye development and eye diseases in vertebrates, including humans.

This expansion of the planarian job description comes Continue reading

‘Bionic Eye’ May Help Blind See: Retinal Prosthesis Shown To Restore Partial Vision

‘Bionic Eye’ May Help Blind See: Retinal Prosthesis Shown To Restore Partial Vision

ScienceDaily (Oct. 21, 2009) — A new artificial retina, an array of electrodes implanted on the back of the eye, has been found to restore partial vision to totally blind people. In a study focused on 15 blind participants who had the implant for at least three months, 10 of the patients subsequently tested were able to identify the direction of moving objects.

The research was presented at Neuroscience 2009, the annual meeting of the Society for Neuroscience and the world’s largest source of emerging news about brain science and health.

“These results give new hope to the many people with degenerative retinal diseases,” said Jessy Dorn, PhD, of Second Sight Medical Products, Inc., lead author of the study. More than two million Americans suffer from eye diseases such as retinitis pigmentosa and age-related macular degeneration, slowly losing their vision as the nerve cells that detect light are destroyed, due to either age or illness. There is no known cure.

In this case, the researchers worked around the destroyed cells. Each participant was given a pair of glasses with a small video camera mounted on it, and a belt with a tiny computer attached. The computer processed video images from the camera and transmitted the data to the implanted electrodes on the retina. When the users “looked” at a monitor with a white bar sweeping across a black screen, the electrodes that corresponded with the moving bar stimulated cells in the eye, creating spots of light in their fields of vision.

“We found that most of the study participants were better able to determine the direction of the bar when using the prosthesis system than without it, or with a scrambled video input,” Dorn said. “In other words, this new system gave most blind people the ability to identify an object’s direction of motion — something they could not do without it.” An international clinical trial is now testing the prosthesis system. To date, 32 blind people have received the implant.

Research was supported by the National Eye Institute.