A new study reveals an unexpected mechanism behind how humans develop sharp, color-rich vision before birth, pointing to a coordinated role between key biochemical signals in the retina.

Combining artificial intelligence and genetics has allowed researchers to study the part of the eye that gives us sharp central vision in amazing detail for the first time. Subscribe to our newsletter ...

Semaglutide showed no significant association with increased risk of eye disorders or diabetic retinopathy in the meta-analysis. A potential link between semaglutide and increased risk of NAION was ...

Common eye diseases include age-related macular degeneration, amblyopia, cataracts, diabetic retinopathy, dry eye, and glaucoma. Over time, tissue damage in different parts of the eye can lead to ...

Scientists discover the important role that aerobic glycolysis, the process where cells make lactate from glucose, plays in mammalian eye development. Although already known to be used by retinal ...

Research teams led by a faculty member in Purdue University’s College of Engineering will use two grants from the National Eye Institute totaling $6.7 million to further develop specialized smart soft ...

The Ocular Neurobiology laboratory at the Institute for Neurosciences, a joint center of Miguel Hernández University (UMH) in Elche and the Spanish National Research Council (CSIC), is participating ...

Treatment shows potential to slow the progression of human degenerative eye diseases, including retinitis pigmentosa. Researchers at the National Institutes of Health (NIH) have developed eye drops ...

A child’s world is full of colors, stories, and new discoveries. But what if they aren’t seeing things as clearly as they should? Eye problems, such as lazy eye or crossed eyes often go unnoticed ...