UNIGE scientists have discovered that children with autism exhibit different brain patterns depending on their language ...

Hundreds of genes have been linked to autism, yet the precise molecular and cellular mechanisms behind it remain largely ...

A chance discovery at Nagoya University in Japan has shown that a well-known brain enzyme has a hidden ability: It builds a ...

Researchers developed FEDE, a high-fidelity digital brain twin pipeline that combines MRI-derived anatomy with biophysical ...

A new study found that the leading environmental factor influencing brain structure and function is the socioeconomic status ...

How does our brain, which is capable of generating complex thoughts, actions and even self-reflection, grow out of essentially nothing? An experiment in tadpoles, in which an electronic implant was ...

Combining microscopy, scanning, and deep learning enables more precise imaging of functional dynamics in neural networks of human cortical organoids.

Tal Sharf (right, senior author), Tjiste van der Molen (middle, postdoctoral researcher), and Greg Kaurala (left, staff researcher). Humans have long wondered when and how we begin to form thoughts.

Researchers use zebrafish models to discover that the RLS risk gene MEIS1 regulates Purkinje cell survival and motor control.