Neural organoids have been heralded as having huge potential for advancing our knowledge of the brain in several fields.

A new study by UT Health San Antonio and Stanford University scientists brings us closer to understanding how the body detects different sensations such as pain, itch and touch. When a person feels ...

Working with week-old zebrafish larva, researchers decoded how the connections formed by a network of neurons in the brainstem guide the fishes' gaze. The study found that a simplified artificial ...

A new study demonstrated that introducing neurons into Xenopus-derived biobots led to the self-organization of active neural ...

A research team at Tohoku University and Future University Hakodate has demonstrated that living biological neurons can be trained to perform a supervised temporal pattern learning task previously ...

Researchers have successfully developed nerve grafts, currently being trialed as a treatment for Parkinson’s disease, that are invisible to the body’s immune system, according to a new study. It could ...

The dynamic organization of neural activities underlying conversation has been revealed. Have you ever wondered how our brains process language during conversations? Now, a team of researchers from ...

The brain is an almost inconceivably complex system of billions of neurons interlinked via trillions of connections that work to coordinate everything you do, think, and feel (Zimmer, 2011). This ...

Zebrafish, photographed with confocal microscope. The brain region that controls eye movement is structurally similar in fish and mammals, but the zebrafish system contains only 500 neurons, making it ...

SAN ANTONIO, Aug. 6, 2025 – A new study by UT Health San Antonio and Stanford University scientists brings us closer to understanding how the body detects different sensations such as pain, itch and ...