Brain functional modeling, what do we measure with fMRI data?
Résumé
The description of specific circuits in networks should allow a more realistic definition of dynamic
functioning of the central nervous system which underlies various brain functions. After introducing the
programmed and acquired networks and recalling the concepts of functional and effective connectivity,
we presented biophysical and physiological aspects of the BOLD signal. Then, we briefly presented a few
data-driven and hypothesis-driven methods; in particular we described structural equation modeling
(SEM), a hypothesis-driven approach used to explore circuits within networks and model spatially and
anatomically interconnected regions. We compared the SEM method with an alternative hypothesisdriven
method, dynamic causal modeling (DCM). Finally, we presented independent components
analysis (ICA), an exploratory data-driven approach which could be used to complete the directed brain
interactivity studies. ICA combined with SEM/DCM may allow extension of the statistical and
explanatory power of fMRI data.
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