Modality-agnostic decoders leverage modality-invariant representations in human subjects' brain activity to predict stimuli irrespective of their modality (image, text, mental imagery).

Within the brain, chemical neurotransmitters like dopamine and norepinephrine regulate mood, emotions and many physiological and behavioral processes. Their imbalance can contribute to anxiety, ...

AI is transforming neuroscience by converting complex brain data into accurate, visually rich diagrams. From decoding dreams to simulating visual perception, researchers now have tools to illustrate ...

From decoding brain activity to automating neuroimaging analysis, AI is reshaping neuroscience research. Purpose-built tools merge large language models, automated data pipelines, and reproducibility ...

A new machine learning algorithm developed by researchers from the USC Viterbi School of Engineering and NYU's Center for Neural Science can isolate brain signals and decode how neural dynamics in the ...

Jennifer Hammel (left) and Monet Roberts conduct research in senior author Jennifer Munson's Lab at the Fralin Biomedical Research Institute at VTC. The team studies how chemotherapy drugs affect ...

Research from the University of East Anglia (UEA) may finally explain why we still reach for the biscuit tin, even when we're full. A new study reveals that the human brain continues to respond to ...

INBRAIN Neuroelectronics, a neurotechnology company developing graphene-based brain-computer interface therapeutics (BCI-Tx), ...

New research published in Nature finds that tumor cells within supratentorial ependymomas (SE) – an aggressive childhood brain cancer – cluster into distinct tumor cell populations. Much like a ...