Literature DB >> 29606579

Spontaneous Infra-slow Brain Activity Has Unique Spatiotemporal Dynamics and Laminar Structure.

Anish Mitra1, Andrew Kraft2, Patrick Wright3, Benjamin Acland4, Abraham Z Snyder5, Zachary Rosenthal2, Leah Czerniewski2, Adam Bauer3, Lawrence Snyder6, Joseph Culver3, Jin-Moo Lee2, Marcus E Raichle5.   

Abstract

Systems-level organization in spontaneous infra-slow (<0.1Hz) brain activity, measured using blood oxygen signals in fMRI and optical imaging, has become a major theme in the study of neural function in both humans and animal models. Yet the neurophysiological basis of infra-slow activity (ISA) remains unresolved. In particular, is ISA a distinct physiological process, or is it a low-frequency analog of faster neural activity? Here, using whole-cortex calcium/hemoglobin imaging in mice, we show that ISA in each of these modalities travels through the cortex along stereotypical spatiotemporal trajectories that are state dependent (wake versus anesthesia) and distinct from trajectories in delta (1-4 Hz) activity. Moreover, mouse laminar electrophysiology reveals that ISA travels through specific cortical layers and is organized into unique cross-laminar temporal dynamics that are different from higher frequency local field potential activity. These findings suggest that ISA is a distinct neurophysiological process that is reflected in fMRI blood oxygen signals.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  BOLD; calcium; dynamics; electrophysiology; fMRI; imaging; infra-slow activity; propagation; resting state; spontaneous activity

Mesh:

Year:  2018        PMID: 29606579      PMCID: PMC5910292          DOI: 10.1016/j.neuron.2018.03.015

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


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