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Like hemodynamic fluctuations observed with fMRI, electrophysiological signals display significant temporal fluctuations, even in the absence of a stimulus. These neural fluctuations exhibit a correlational structure over a wide range of spatial and temporal scales.
Oct 15, 2013
Abstract. A powerful way to probe brain function is to assess the relationship between simultaneous changes in activity across different parts of the brain.
Oct 15, 2013 · A powerful way to probe brain function is to assess the relationship between simultaneous changes in activity across different parts of the brain.
Like hemodynamic fluctuations observed with fMRI, electrophysiological signals display significant temporal fluctuations, even in the absence of a stimulus.
TL;DR: This review will focus on the use of human neuroimaging approaches to map the connectome at a macroscopic level and highlights potential future ...
The contribution of electrophysiology to functional connectivity mapping · List of references · Publications that cite this publication.
Jun 9, 2023 · We find that BOLD FC is correlated with SEEG FC in white matter, and this result is consistent across a wide range of frequency bands for each participant.
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Like hemodynamic fluctuations observed with fMRI, electrophysiological signals display significant temporal fluctuations, even in the absence of a stimulus.
Nov 19, 2014 · We propose a novel approach for refining functional connectivity estimates within neuronal networks using the structural connectivity as prior.
Jan 17, 2016 · The synchronized activity within this neuronal network can be detected by MEG and EEG then imaged using network connectivity analysis.