Physical gel models and numerical simulations have been created to study ferret brain gyrification and cortical malformations, while comparisons with human phenotypes aim to link genetics and brain ...

On Sunday’s episode of The Excerpt podcast: Brain-computer interfaces promise breakthroughs in restoring lost function and beyond. But they also raise ethical and societal questions about the linking ...

The morphogenesis of brain folding patterns across species is studied by physical gel models, simulations, and a quantitative morphometric analysis.

A new way of mapping activity and connections between different regions of the brain has revealed fresh insights into how higher order functions like language, thought and attention, are organized. A ...

Source: Via Tenor The human brain has been described as the most complex structure in the universe (Dolan, 2007; see also Pang, 2023). Researchers estimate that we have over 100 trillion connections ...

Scientists have shown that brain connectivity patterns can predict mental functions across the entire brain. Each region has a unique “connectivity fingerprint” tied to its role in cognition, from ...

A new brain implant stands to transform human-computer interaction and expand treatment possibilities for neurological conditions such as epilepsy, spinal cord injury, ALS, stroke, and ...

How can we interact with computers using only our mind? Existing brain-computer interfaces are often limited by their size and invasiveness, requiring major surgeries and offering low data rates.

To navigate something as complex and dynamic as the brain, a map would help. Researchers have learned an enormous amount about how we think, what drives our behaviors, and why we feel the way we do ...