In a game-changer for drug testing & precision medicine, a 3D flexible electrode array wraps around cardiac organoids, ...

Johns Hopkins University researchers have grown a novel whole-brain organoid, complete with neural tissues and rudimentary blood vessels—an advance that could usher in a new era of research into ...

Scientists at Johns Hopkins have grown a first-of-its-kind organoid mimicking an entire human brain, complete with rudimentary blood vessels and neural activity. This new "multi-region brain organoid" ...

Choosing the right blueprint can accelerate learning in visual AI systems. Artificial intelligence systems built with biologically inspired structures can produce activity patterns similar to those ...

Artificial intelligence systems designed to physically emulate natural brains can simulate human brain activity before being ...

Johns Hopkins scientists uncovered microscopic “nanotube” channels that neurons use to transfer toxic molecules. While this process clears waste, it can also spread harmful proteins like amyloid-beta.

Johns Hopkins University researchers have grown a novel whole-brain organoid, complete with neural tissues and rudimentary blood vessels—an advance that could usher in a new era of research into ...

Johns Hopkins researchers used light sheet microscopy to confirm cerebral organoids, endothelial organoids, and mid/hindbrain organoids fused into one Multi-Region Brain Organoid. Johns Hopkins ...