The human brain can concurrently support a wide range of advanced mental functions, including attention, memory and the processing of sensory stimuli. While past neuroscience studies have gathered ...

The rapid ascent of large-scale artificial intelligence has provided neuroscience with a new set of powerful tools for modeling complex cognitive functions.

A team led by Professor Ed X. Wu and Dr. Alex T. L. Leong has achieved a major breakthrough in understanding how the brain ...

In mouse brains, star-shaped astrocytes form flexible networks that may offer another way for brain regions to communicate.

Researchers at Princeton University have developed a hybrid biocomputing platform that combines living brain ...

Scientists have created a new way to map how brain cells connect by assigning each neuron a unique molecular “barcode.” Using ...

The brain is never completely at rest. Even without external input, it produces spontaneous neural activity that creates synchronized fluctuations across different regions - a process known as ...

The brain is a master controller, organized into large-scale neural networks that directly affect whether people with addictions break free or surrender. Research has identified a key site, the action ...

Recent advances in large-scale AI models, including large language and vision-language-action models, have significantly expanded the capabilities of ...

Differences in brain connectivity are linked to several neurodevelopmental disorders, yet scientists still struggle to determine what changes are shared or unique to each condition.