The study shows that fat tissue, when processed and cultured in a specific way, can self-organize into structures resembling bone marrow, pancreatic islets, and even neural tissue. These organoids ...

The human brain is complex. Understanding deep brain function usually requires the insertion of probes that frequently result ...

As prominent artificial intelligence (AI) researchers eye limits to the current phase of the technology, a different approach ...

Key cells in the brain, neurons, form networks by exchanging signals, enabling the brain to learn and adapt at incredible speed. Researchers have now developed a 3D-printed 'brain-like environment' ...

From enhancing mobility and motor function to improving sensory capabilities, brain-computer interfaces (BCI) can expand our human capabilities by enabling seamless communication, improving cognitive ...

The brain is probably the least explored organ, much of which is due to the difficulty of studying it in situ rather than in slices under a microscope. Even growing small organoids out of neurons ...

Researchers have used a novel technique to 3D print brain tissue whose cells developed into functional neurons that communicated with each other in a matter of weeks. They say the approach could be ...

In a nutshell: Interfacing brains with computers is challenging. It requires decoding complex neural signals, ensuring biocompatibility, and preventing immune responses, to name a few hurdles.

AMES, Iowa –Iowa State University researchers have created a new way to design and fabricate microfibers that support cell growth and could be useful tools for reconnecting nerves and regenerating ...

Jinxing Li and Christopher H. Contag delve into magnetobiology, which utilizes magnetic fields to manipulate and control ...