In an important step toward visual prostheses, biocompatible electrodes can convert infrared light into nerve impulses, as ...

Chameleons have intrigued observers for thousands of years, largely because their eyes seem to roam independently in nearly every direction. After ...

Chameleons’ extraordinary ability to move their eyes independently stems from a previously overlooked anatomical marvel: long ...

After centuries of fascination and speculation, scientists have finally uncovered the secret behind chameleons’ mesmerizing, ...

Researchers have shown that the chameleon has a coiled optic nerve, which they believe allows the lizard to increase their ...

Learn how coiled optic nerves, unlike any seen in other reptiles, give chameleons their extraordinary field of view.

Chameleons' wandering eyes have fascinated and puzzled scientists since the days of ancient Greece. Now, after millennia of ...

Chameleons' wandering eyes have fascinated and puzzled scientists since the days of ancient Greece. Now, after millennia of study, modern imaging has ...

A deep-learning model trained on optical coherence tomography scans of the optic nerve head reliably distinguished among various types of optic nerve damage, such as glaucoma, non-arteritic anterior ...

New research links two widely used diabetes drugs, semaglutide or tirzepatide, to a rare but potentially vision-threatening eye condition, raising questions about drug-specific risks and the need for ...

A retrospective cohort study suggested that users of GLP-1 receptor agonists had a 7% higher incidence of new-onset diabetic retinopathy. In patients with existing diabetic retinopathy, use of GLP-1 ...