While it's well known that sleep enhances cognitive performance, the underlying neural mechanisms, particularly those related to nonrapid eye movement (NREM) sleep, remain largely unexplored.

A unique combination of explainable AI and repurposing animal camouflage detection algorithms can identify human brain cancer ...

Researchers have mapped how different brain cell types align with functional networks in the human cortex, advancing our ...

New research explores the developmental trajectory of global functional neural networks before and after birth. A study ...

Brain-imaging data collected from fetuses and infants has revealed a rapid surge in functional connectivity between brain ...

Artificial intelligence models are getting better at pinpointing brain tumors – and they’re using a surprising technique ...

By Dr. Chinta Sidharthan Neural networks trained with a camouflage detection step show enhanced accuracy and sensitivity in ...

Researchers have developed the most detailed 3D computational models of key brain regions, including the hippocampus and ...

A study using zebrafish reveals how brainstem neural networks guide eye movement, offering a new model that mimics these networks to predict their activity, potentially aiding eye disorder treatments ...

This article reports a useful set of findings on how electrophysiological response properties of neurons correlate with their position in the brain. The evidence currently remains incomplete, with ...

Study: Age-related neural changes underlying long-term recognition of musical sequences ... with some theories suggesting that older adults can compensate for cognitive decline by using different ...

A paper titled "Deep Learning and Transfer Learning for Brain Tumor Detection and Classification" published in Biology ...