Astrocytes, non-neuronal brain cells, have been shown to work alongside neurons to store and recall memories, reshaping our ...

New research reveals that astrocytes, a type of non-neuronal brain cell, play a significant role in memory storage and recall ...

Fascinating new findings into how clusters of 'brain stars' retain memories has changed what we know about how they're held in our minds.

A new study changes the way we understand memory. Until now, memories have been explained by the activity of brain cells called neurons that respond to learning events and control memory recall.

New Delhi: While the brain is well-known for memory storage, a new study reveals that other parts of the body may also retain ...

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 ...

How does the brain store—and access—our memories? While our understanding of the brain has (thankfully) developed greatly from the days of removing cerebral tissue to see what would happen, a precise ...

A study published in Nature by researchers at Baylor College of Medicine changes the way we understand memory. Until now, ...

Researchers have discovered a neural mechanism for memory integration that stretches across both time and personal experience.

Results indicate that a distinct ensemble of astrocytes selectively coordinates the consolidation and recall of a particular memory.

A study from Baylor College of Medicine reveals that astrocytes, previously thought to have a limited role, are essential for memory recall. The research shows that these cells interact with neurons ...