A single brain cell cannot think by itself, but when it's connected with millions of other cells, that network is capable of ...

How do the circuits of the human brain work—and what happens when they are disrupted? To investigate these questions, ...

The machine-learning programs that underpin their ability to “see” still have blind spots—but not for much longer ...

Using single-cell RNA sequencing and genetic screening, the researchers identified key surface proteins that mediate ...

The neural crest is an extraordinary population of multipotent stem cells, unique to vertebrates, that plays a pivotal role in embryogenesis. Arising at the borders of the neural plate, these cells ...

Researchers at the University Hospital Bonn and the University of Bonn are reconstructing neural networks in the laboratory and investigating new ...

Scientists developed a wireless brain implant smaller than a grain of sand that recorded neural activity in mice for 365 days ...

A new neural implant has been developed that is so small it can rest on a grain of salt, yet it can transmit brain activity ...

Ultra-thin MoS2 memtransistor arrays feature controlled Schottky barriers, low variability, and reliable switching, boosting ...

Researchers have developed a neural implant that uses laser powered wireless technology to monitor brain activity for over a ...

The same cellular renewal that keeps our bodies healthy might also fuel the growth of cancer. A UC Merced biologist has found that the brain could hold the key to stopping it.