A Window into Brain Networks

Gene Stowe and Marissa Gebhard | Nov. 4, 2013 | Notre Dame News

Visualizing Brain Connectivity

A paper published in a special edition of the journal Science proposes a novel understanding of brain architecture using a network representation of connections within the primate cortex. Zoltán Toroczkai, professor of physics at the University of Notre Dame and co-director of the Interdisciplinary Center for Network Science and Applications, is a co-author of the paper “Cortical High-Density Counterstream Architectures.”

Using brain-wide and consistent tracer data, the researchers describe the cortex as a network of connections with a “bow tie” structure characterized by a high-efficiency, dense core connecting with “wings” of feed-forward and feedback pathways to the rest of the cortex (periphery). The local circuits, reaching to within 2.5 millimeters and taking up more than 70 percent of all the connections in the macaque cortex, are integrated across areas with different functional modalities (somatosensory, motor, cognitive) with medium- to long-range projections.

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 by Daily Domer Staff

Posted In: Features