Researchers from Monash University, in collaboration with the European Biostasis Foundation and Apex Neuroscience, have ...

Memory doesn’t live only in the brain. Scientists are uncovering signs that cells throughout the body can remember, too. These findings are starting to challenge old ideas about how and where ...

Despite near-consensus that memory has a physical basis, neuroscientists are split on whether we might someday be able to ...

The human brain contains about 86 billion neurons. These cells fire electrical signals that help the brain store memories and send information and commands throughout the brain and the nervous system.

Viewing art is good for us, but new research may now tell us why — and that therapeutic uses may be better than previously ...

Researchers have a new hypothesis for how brain cells called astrocytes might contribute to memory storage in the brain. Their model, known as dense associative memory, would help explain the ...

A recent survey of neuroscientists revealed that almost half of them think that some day we will be able to upload our brains to a computer. They clarify ...

A new machine learning model shows that star-shaped brain cells may be responsible for the brain's memory capacity, and someday, it could inspire advances in AI and Alzheimer's research.

Using machine learning and brain scans, researchers found that accelerated brain aging increases the impact of cognitive risk ...

The extensive biological connections between neurons and astrocytes offer support for the idea that this type of model might explain how the brain’s memory storage systems work, the researchers say.

Memory doesn’t live only in the brain. Scientists are uncovering signs that cells throughout the body can remember, too. These findings are starting to challenge old ideas about how and where ...