NeuroDiscovery

NeuroDiscovery applies cutting-edge techniques to make fundamental discoveries in brain science — discoveries that could unlock new medical treatments, transform education, inform public policy, and help us understand who we are. Our scientists peer at individual molecules operating where one neuron sends signals to the next. We trace networks of interconnected neurons to map the neural circuits responsible for different brain functions. And we tap into those circuits, tracking dynamic chemical and electrical signals to understand how our brains detect, integrate and transform stimuli into action.

NeuroDiscovery

Study maps how varied genetic forms of autism lead to common features

AI Reveals How Brain Activity Unfolds Over Time

Past, present and future perspectives on the science of aging

The race to measure aging—and why it matters

NeuroDiscovery

Related Projects

Uncovering the neurochemical basis of colonic water absorption

Uncovering behavior-dependent entorhinal maps with state space models

Uncovering the roles of representational drift in the brain through the lens of dynamical systems and their practical implications in brain-computer interfaces

Engineering objective physiologic measures to characterize nonmotor aspects of Parkinson’s disease

Related News

Study maps how varied genetic forms of autism lead to common features

AI Reveals How Brain Activity Unfolds Over Time

Past, present and future perspectives on the science of aging

The race to measure aging—and why it matters