fMRI resting state networks define distinct modes of long-distance interactions in the human brain
@article{Luca2006fMRIRS,
title={fMRI resting state networks define distinct modes of long-distance interactions in the human brain},
author={M. De Luca and Christian F. Beckmann and Nicola De Stefano and Paul M. Matthews and Stephen M. Smith},
journal={NeuroImage},
year={2006},
volume={29},
pages={1359-1367}
}
1,223 Citations
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Findings show that the baseline activity of the brain is consistent across subjects exhibiting significant temporal dynamics, with percentage BOLD signal change comparable with the signal changes found in task-related experiments.
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Correlation analysis revealed that the EEG ISFs correlate with BOLD signal both temporally and spatially, indicating that the ISFs of EEG and BOLD reflect a common source of fluctuations.
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Resting-state fMRI ongoing slow fluctuations likely reflect the interaction of underlying physiological cortico-cortical connections, which are believed to be involved in reorientation of attention.
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Functional networks in the anesthetized rat brain revealed by independent component analysis of resting-state FMRI.
- BiologyJournal of neurophysiology
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12 independent resting networks that are bilaterally synchronous in different cortical and subcortical areas of the rat brain are demonstrated, for the first time, in this study.
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- BiologyProceedings of the National Academy of Sciences
- 2007
This work has identified six widely distributed resting state networks and supports for the first time in humans the coalescence of several brain rhythms within large-scale brain networks as suggested by biophysical studies.
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- Biology
- 2014
The results of the thesis support the viewpoint of ICA as a robust analysis method for functional connectivity analysis as well as revealed the modular structure of the RSNs and pinpointed the specific aberrations in the autism spectrum disorder population.
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