NEI Research News

Researchers improved vision in a type 2 diabetes mouse model by reprogramming blood cells into endothelial cells with vessel reparative properties similar to endothelial colony forming cells.

The digital summit of global partners in vision research discussed opportunities for collaboration.

A team of neuroscientists at the University of Connecticut reports that the retina has a remarkable ability to wall off damage.

Protein sigma 1 receptor, which is known to protect cells from stress, appears key to the function and survival of retinal ganglion cells (RGCs) in culture.

Researchers at the National Eye Institute (NEI) have discovered that power-producing organelles in the eye’s photoreceptor cells, called mitochondria, function as microlenses that help channel light to these cells’ outer segments.

New research led by scientists at the University of Washington indicates that a common mosquito species — after detecting a telltale gas that we exhale — flies toward specific colors, including red, orange, black and cyan.

A Stanford scientist and his colleagues show that patients fitted with a chip in their eye are able to integrate what the chip “sees” with objects their natural peripheral vision detects.

Researchers from the U. of Wisconsin have shown that a retinal cell type derived from human pluripotent stem cells is capable of the complex process of detecting light and converting that signal to electrical waves.

Part of the Anterior Segment Initiative, the meeting addressed gaps in knowledge, barriers to new therapies, and promising areas for research.

Researchers at the University of Arizona College of Medicine – Tucson are leading a study to identify the biological mechanisms that cause cataracts in the hopes that new, nonsurgical treatments may be developed.