NEI Research News

It was Labor Day 2015 when Rosetta Ivey-Foster, a 67-year-old retired bank clerk, learned first-hand how quickly diabetes can deteriorate vision.

Michael Crair, Yale University, and Carol Mason, Columbia University, have co-authored a report published online today in the Journal of Neuroscience.

By peering into the eyes of mice and tracking their ocular movements, researchers made an unexpected discovery: the visual cortex – a region of the brain known to process sensory information – plays a key role...

Researchers from the U.S. and India have begun a new collaborative project to identify genetic risk factors and traits related to glaucoma, a leading cause of blindness worldwide.

Today, the National Academies of Sciences, Engineering, and Medicine (the National Academies) released “Making Eye Health A Population Health Imperative: Vision for Tomorrow.

The National Institutes of Health will fund six projects to identify biological factors that affect neural regeneration in the retina.

Combinations of Food and Drug Administration-approved drugs protect against the loss of cells required for vision in a mouse model of blinding retinal diseases.

A study in mice funded by the National Institutes of Health (NIH) shows for the first time that high-contrast visual stimulation can help damaged retinal neurons regrow optic nerve fibers, otherwise known as retinal ganglion cell axons.

NEI research fellow Nathan Hotaling, PhD, has been awarded a $65,000 grant from the Knights Templar Eye Foundation to develop a stem cell-based system to study Best disease, a genetic disorder that can cause progressive vision loss.

Retinas from our earliest vertebrate ancestors had cone-like photoreceptors, presumably allowing them to see in daylight, but little ability to see at night.