Literature DB >> 29398359

Ultra-Slow Single-Vessel BOLD and CBV-Based fMRI Spatiotemporal Dynamics and Their Correlation with Neuronal Intracellular Calcium Signals.

Yi He1, Maosen Wang1, Xuming Chen1, Rolf Pohmann2, Jonathan R Polimeni3, Klaus Scheffler4, Bruce R Rosen3, David Kleinfeld5, Xin Yu6.   

Abstract

Functional MRI has been used to map brain activity and functional connectivity based on the strength and temporal coherence of neurovascular-coupled hemodynamic signals. Here, single-vessel fMRI reveals vessel-specific correlation patterns in both rodents and humans. In anesthetized rats, fluctuations in the vessel-specific fMRI signal are correlated with the intracellular calcium signal measured in neighboring neurons. Further, the blood-oxygen-level-dependent (BOLD) signal from individual venules and the cerebral-blood-volume signal from individual arterioles show correlations at ultra-slow (<0.1 Hz), anesthetic-modulated rhythms. These data support a model that links neuronal activity to intrinsic oscillations in the cerebral vasculature, with a spatial correlation length of ∼2 mm for arterioles. In complementary data from awake human subjects, the BOLD signal is spatially correlated among sulcus veins and specified intracortical veins of the visual cortex at similar ultra-slow rhythms. These data support the use of fMRI to resolve functional connectivity at the level of single vessels.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  BOLD; Calcium; GCaMP; cerebral blood volume; fMRI; functional connectivity; oscillation; resting state; single vessel; vasomotion

Mesh:

Year:  2018        PMID: 29398359      PMCID: PMC5845844          DOI: 10.1016/j.neuron.2018.01.025

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


  73 in total

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4.  Functional mapping of the human visual cortex by magnetic resonance imaging.

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  55 in total

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Review 8.  Ultra-slow Oscillations in fMRI and Resting-State Connectivity: Neuronal and Vascular Contributions and Technical Confounds.

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