Network models describe the brain as sets of nodes and edges that represent its distributed
organization. So far, most discoveries in network neuroscience have prioritized insights that …

Until now, most brain studies have focused on small numbers of neurons that interact in
limited circuits, allowing analysis of individual computations or steps of neural processing …

Brains comprise complex networks of neurons and connections, similar to the nodes and
edges of artificial networks. Network analysis applied to the wiring diagrams of brains can …

A growing number of studies have used stylized network models of communication to predict
brain function from structure. Most have focused on a small set of models applied globally …

Exposure to outdoor air pollution has been linked to adverse health effects, including
potential widespread impacts on the CNS. Ongoing brain development may render children …

The wiring architecture of neuronal networks is assumed to be a strong determinant of their
dynamical computations. An ongoing effort in neuroscience is therefore to generate …

The topology of structural brain networks shapes brain dynamics, including the correlation
structure of brain activity (functional connectivity) as estimated from functional neuroimaging …

Natural vision is dynamic: as an animal moves, its visual input changes dramatically. How
can the visual system reliably extract local features from an input dominated by self …

Locomotion engages widely distributed networks of neurons. However, our understanding of
the spatial architecture and temporal dynamics of the networks that underpin walking …

Behavior arises from the coordinated activity of numerous anatomically and functionally
distinct brain regions. Modern experimental tools allow unprecedented access to large …