Researchers headed by a team at the Institute for Basic Science’s Center for Cognition and Sociality in South Korea reported on a discovery that they claim could revolutionize the diagnosis and ...

PET imaging of reactive astrocyte-neuron interaction reveals new insights into Alzheimer's disease pathology, offering a potential breakthrough in diagnosis and treatment Recently, a team of South ...

Switches' in our DNA that affect gene activity in cells could be crucial to understanding and possibly treating Alzheimer's ...

Delivering a connection-building protein to star-shaped cells in the brain could reverse changes to neural circuits seen in ...

In the brain, synaptic plasticity - the ability to change neuronal connections over time - is fundamental to learning and memory. Traditionally, science has focused on nerve cells and their synapses.

To better model how neurons fire and interact with glia, some scientists place the cells into a brain or grow them in an organoid. Others have produced little spheres of human neural tissue by ...

Researchers hypothesize that a powerful type of AI model known as a transformer could be implemented in the brain through networks of neuron and astrocyte cells. The work could offer insights into how ...

A study published in Nature by researchers at Baylor College of Medicine changes the way we understand memory. Until now, memories have been explained by the activity of brain cells called neurons ...

A change in the proteins secreted by astrocytes, star-shaped cells that support neurons, may contribute to the atypical firing patterns of neurons in people with Fragile X syndrome, according to a new ...