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Global waves synchronize the brain’s functional systems with fluctuating arousal

Ryan V. Raut, Abraham Z. Snyder, Anish Mitra, Dovi Yellin, Naotaka Fujii, Rafael Malach, Marcus E. Raichle

2021Science Advances287 citationsDOIOpen Access PDF

Abstract

We propose and empirically support a parsimonious account of intrinsic, brain-wide spatiotemporal organization arising from traveling waves linked to arousal. We hypothesize that these waves are the predominant physiological process reflected in spontaneous functional magnetic resonance imaging (fMRI) signal fluctuations. The correlation structure ("functional connectivity") of these fluctuations recapitulates the large-scale functional organization of the brain. However, a unifying physiological account of this structure has so far been lacking. Here, using fMRI in humans, we show that ongoing arousal fluctuations are associated with global waves of activity that slowly propagate in parallel throughout the neocortex, thalamus, striatum, and cerebellum. We show that these waves can parsimoniously account for many features of spontaneous fMRI signal fluctuations, including topographically organized functional connectivity. Last, we demonstrate similar, cortex-wide propagation of neural activity measured with electrocorticography in macaques. These findings suggest that traveling waves spatiotemporally pattern brain-wide excitability in relation to arousal.

Topics & Concepts

Brain wavesArousalNeuroscienceBrain activity and meditationElectroencephalographyComputer sciencePhysicsPsychologyCognitive psychologyNeural dynamics and brain functionFunctional Brain Connectivity StudiesEEG and Brain-Computer Interfaces
Global waves synchronize the brain’s functional systems with fluctuating arousal | Litcius