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Evolutionarily conserved fMRI network dynamics in the mouse, macaque, and human brain

Author

Listed:
  • Daniel Gutierrez-Barragan

    (Center for Neuroscience and Cognitive Systems)

  • Julian S. B. Ramirez

    (Center for the Developing Brain. Child Mind Institute)

  • Stefano Panzeri

    (University Medical Center Hamburg-Eppendorf (UKE))

  • Ting Xu

    (Center for the Developing Brain. Child Mind Institute)

  • Alessandro Gozzi

    (Center for Neuroscience and Cognitive Systems)

Abstract

Evolutionarily relevant networks have been previously described in several mammalian species using time-averaged analyses of fMRI time-series. However, fMRI network activity is highly dynamic and continually evolves over timescales of seconds. Whether the dynamic organization of resting-state fMRI network activity is conserved across mammalian species remains unclear. Using frame-wise clustering of fMRI time-series, we find that intrinsic fMRI network dynamics in awake male macaques and humans is characterized by recurrent transitions between a set of 4 dominant, neuroanatomically homologous fMRI coactivation modes (C-modes), three of which are also plausibly represented in the male rodent brain. Importantly, in all species C-modes exhibit species-invariant dynamic features, including preferred occurrence at specific phases of fMRI global signal fluctuations, and a state transition structure compatible with infraslow coupled oscillator dynamics. Moreover, dominant C-mode occurrence reconstitutes the static organization of the fMRI connectome in all species, and is predictive of ranking of corresponding fMRI connectivity gradients. These results reveal a set of species-invariant principles underlying the dynamic organization of fMRI networks in mammalian species, and offer novel opportunities to relate fMRI network findings across the phylogenetic tree.

Suggested Citation

  • Daniel Gutierrez-Barragan & Julian S. B. Ramirez & Stefano Panzeri & Ting Xu & Alessandro Gozzi, 2024. "Evolutionarily conserved fMRI network dynamics in the mouse, macaque, and human brain," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52721-8
    DOI: 10.1038/s41467-024-52721-8
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    References listed on IDEAS

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