Scientists developed two new sensors that can detect brain cell communication in real time, tracking chemical messages ...

Researchers in Japan built a miniature human brain circuit using fused stem-cell–derived organoids, allowing them to watch ...

MIT researchers are using living cells to target diseased brain areas and deliver tiny electronic devices that can modulate ...

A new bioluminescent tool allows neurons to glow on their own, letting scientists track brain activity without harmful lasers or fading signals. The advance makes it possible to watch individual brain ...

For more than a century, brain imaging has been a story of trade-offs: sharp pictures but slow timing, or fast signals with ...

Pea-size clusters of human cells called brain organoids inspire both hope and fear. Experts are debating how scientists can ...

Every moment, the brain balances signals that unfold at different speeds. Some arrive in milliseconds, such as a sudden sound ...

Researchers have demonstrated that brain cells learn faster and carry out complex networking more effectively than machine learning by comparing how both a Synthetic Biological Intelligence (SBI) ...

The technology is still in its infancy. But its trajectory suggests that ethical conversations may become pressing far sooner than expected. These “biocomputers” are still in their early days. They ...

A new computational model of the brain based closely on its biology and physiology has not only learned a simple visual ...

Exvade Bioscience™, a clinical-stage neuro-oncology company advancing a breakthrough platform for treating aggressive brain cancers, today highlighted ongoing enrollment in a Phase 1 clinical trial ...

Blame cell death and fungi for brain decay, not TikTok. TikTok won't really make your brain rot. That doesn't happen until after death. While most brains rot quickly, researchers have found a ...