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Front Comput Neurosci. 2016 Jun 28;10:66. doi: 10.3389/fncom.2016.00066. eCollection 2016.

fMRI at High Spatial Resolution: Implications for BOLD-Models.

Author information

1
Department of Psychology, Institute of Neuroscience and Psychology, University of Glasgow Glasgow, UK.
2
Department of Physiology of Cognitive Processes, Max-Planck Institute for Biological Cybernetics Tübingen, Germany.
3
Department of Physiology of Cognitive Processes, Max-Planck Institute for Biological CyberneticsTübingen, Germany; Divison of Imaging Science and Biomedical Engineering, University of ManchesterManchester, UK.

Abstract

As high-resolution functional magnetic resonance imaging (fMRI) and fMRI of cortical layers become more widely used, the question how well high-resolution fMRI signals reflect the underlying neural processing, and how to interpret laminar fMRI data becomes more and more relevant. High-resolution fMRI has shown laminar differences in cerebral blood flow (CBF), volume (CBV), and neurovascular coupling. Features and processes that were previously lumped into a single voxel become spatially distinct at high resolution. These features can be vascular compartments such as veins, arteries, and capillaries, or cortical layers and columns, which can have differences in metabolism. Mesoscopic models of the blood oxygenation level dependent (BOLD) response therefore need to be expanded, for instance, to incorporate laminar differences in the coupling between neural activity, metabolism and the hemodynamic response. Here we discuss biological and methodological factors that affect the modeling and interpretation of high-resolution fMRI data. We also illustrate with examples from neuropharmacology and the negative BOLD response how combining BOLD with CBF- and CBV-based fMRI methods can provide additional information about neurovascular coupling, and can aid modeling and interpretation of high-resolution fMRI.

KEYWORDS:

BOLD mechanism; cerebral blood flow; cerebral blood volume; cortical layers; high-resolution fMRI; neurovascular coupling

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