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Literature DB >> 33822908

Brain Activity Fluctuations Propagate as Waves Traversing the Cortical Hierarchy.

Yameng Gu¹, Lucas E Sainburg¹, Sizhe Kuang¹, Feng Han¹, Jack W Williams¹, Yikang Liu¹, Nanyin Zhang^1,2, Xiang Zhang³, David A Leopold^4,5, Xiao Liu^1,6.

Abstract

The brain exhibits highly organized patterns of spontaneous activity as measured by resting-state functional magnetic resonance imaging (fMRI) fluctuations that are being widely used to assess the brain's functional connectivity. Some evidence suggests that spatiotemporally coherent waves are a core feature of spontaneous activity that shapes functional connectivity, although this has been difficult to establish using fMRI given the temporal constraints of the hemodynamic signal. Here, we investigated the structure of spontaneous waves in human fMRI and monkey electrocorticography. In both species, we found clear, repeatable, and directionally constrained activity waves coursed along a spatial axis approximately representing cortical hierarchical organization. These cortical propagations were closely associated with activity changes in distinct subcortical structures, particularly those related to arousal regulation, and modulated across different states of vigilance. The findings demonstrate a neural origin of spatiotemporal fMRI wave propagation at rest and link it to the principal gradient of resting-state fMRI connectivity.

Entities: Chemical

Keywords: cortical hierarchy; global signal; infra-slow propagating activity; multimodal neuroimaging

Mesh：

Year: 2021 PMID： 33822908 PMCID： PMC8485153 DOI： 10.1093/cercor/bhab064

Source DB: PubMed Journal: Cereb Cortex ISSN： 1047-3211 Impact factor: 5.357

102 in total

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