Vision loss has long been treated as a one-way street, a devastating endpoint rather than a problem the brain might quietly ...

The vertebrate retina is a highly organised neural circuit, comprising diverse cell types that transform light into the complex neural codes underlying vision. At the forefront are photoreceptors, ...

Researchers uncovered an unexpected form of neural resilience: after traumatic injury, surviving retinal cells in mice grow new branches that reestablish lost connections in the brain’s visual system, ...

Differences in kinetics of retinal output signals originate at least in part from differences in synaptic output from distinct bipolar cell types.

For generations, adults with amblyopia were told their vision loss was permanent, a childhood problem that medicine could not ...

Neural and computational evidence reveals that real-world size is a temporally late, semantically grounded, and hierarchically stable dimension of object representation in both human brains and ...

Vision is one of the most crucial human senses, yet over 300 million people worldwide are at risk of vision loss due to various retinal diseases. While recent advancements in retinal disease ...

Rhythmic electrical activity in the retina (known as pathological oscillations) has been observed in several eye diseases, including congenital stationary night blindness (CSNB) and retinitis ...

A Japanese research team has successfully reproduced the human neural circuit in vitro using multi-region miniature organs ...