A growing body of neuroimaging research is pinpointing exactly how psychedelic drugs hijack the brain’s visual system to ...

A neuroimaging study published in Psychiatry Research: Neuroimaging has identified hyperactivity in the superior occipital ...

Researchers use compressed AI models to discover "dot-detecting" neurons in the macaque visual cortex, offering a new path for Alzheimer’s therapy.

NYU Langone neuroscientists identified the brain region likely responsible for recognizing images after seeing them once, ...

Researchers identify the fusiform imagery node as the brain's "imagination hub," explaining why strokes can cause the loss of visual mental imagery.

Isaiah Kletenik, MD, and Julian Kutsche, of the Center for Brain Circuit Therapeutics within the Mass General Brigham Neuroscience Institute, are the senior and lead authors of a paper published in ...

Scientists used a compact AI model to predict how visual cortex neurons respond to images, revealing hidden patterns in perception.

People who lose their visual imagination after a stroke share damage to a single neural circuit. A new analysis maps these ...

Imagine arriving at a busy location with people moving around and a multitude of visual and other sensory cues vying for your ...

Fostering visualization of any content (curricular or otherwise) by targeting and using the occipital lobe as the central point of processing the information is one of the strongest ways to help that ...

Why do our mental images stay sharp even when we are moving fast? A team of neuroscientists led by Professor Maximilian Jösch at the Institute of Science and Technology Austria (ISTA) has identified a ...