A new study reveals that inhibitory neurons born later in development mature more quickly than earlier ones, allowing them to catch up and integrate evenly into neural networks.

Implantable bioelectronics are vital to neuroscience, neurological therapies, and brain-machine interfaces. They serve as ...

The Chan Zuckerberg Initiative (CZI) reports its latest AI model aimed at helping researchers better understand how cells ...

New research highlights how astrocytes, long considered mere support cells, actively shape brain network dynamics.

A study from the Max Planck Institute reveals that inhibitory neurons born later in development mature more rapidly to keep ...

A Florida Atlantic University study shows that astrocytes, glial cells long viewed as passive, actively influence brain ...

Excitatory neurons increase activity, while inhibitory neurons prevent cells from firing too much. • Published in Nature Neuroscience: A team at the Max Planck Institute for Biological Intelligence ...

The human brain is made up of billions of nerve cells, or neurons, that communicate with each other in vast, interconnected networks. For the brain to ...

Long overlooked and underestimated, glial cells - non-neuronal cells that support, protect and communicate with neurons - are finally stepping into ...

Glial cells support neurological structures, function, cognition, behaviours, physical skills, and motor coordination.

Today, the Chan Zuckerberg Initiative (CZI) announced its latest AI model aimed at helping researchers better understand how cells behave by focusing on the key networks that control cell behavior, ...

Your brain replays awkward moments not to punish you, but to protect you—it's just doing what evolution trained it to do.