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Human connectome topology directs cortical traveling waves and shapes frequency gradients

Dominik P. Koller (), Michael Schirner and Petra Ritter ()
Additional contact information
Dominik P. Koller: Charitéplatz 1
Michael Schirner: Charitéplatz 1
Petra Ritter: Charitéplatz 1

Nature Communications, 2024, vol. 15, issue 1, 1-20

Abstract: Abstract Traveling waves and neural oscillation frequency gradients are pervasive in the human cortex. While the direction of traveling waves has been linked to brain function and dysfunction, the factors that determine this direction remain elusive. We hypothesized that structural connectivity instrength gradients — defined as the gradually varying sum of incoming connection strengths across the cortex — could shape both traveling wave direction and frequency gradients. We confirm the presence of instrength gradients in the human connectome across diverse cohorts and parcellations. Using a cortical network model, we demonstrate how these instrength gradients direct traveling waves and shape frequency gradients. Our model fits resting-state MEG functional connectivity best in a regime where instrength-directed traveling waves and frequency gradients emerge. We further show how structural subnetworks of the human connectome generate opposing wave directions and frequency gradients observed in the alpha and beta bands. Our findings suggest that structural connectivity instrength gradients affect both traveling wave direction and frequency gradients.

Date: 2024
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DOI: 10.1038/s41467-024-47860-x

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