Computational Neuroscience Methods: Investigating the Relationship between Resting-State EEG Microstate Syntax and fMRI BOLD Signal
Abstract
Simultaneous recording of Electroencephalography (EEG) and functional Magnetic
Resonance Imaging (fMRI) has been used consistently in the past as a
means of understanding EEG microstate function. EEG microstates are quasistable
states of EEG activity. Here, I investigate existing methodologies that
attempt to draw relationships between microstate classes and fMRI signal, shedding
light on their limitations and proposing alternative methods which may
better utilise the advantages of simultaneously recorded EEG-fMRI.
Three distinct studies are presented, each using a novel methodology which
compares EEG microstates to the simultaneously recorded fMRI signal in resting
state recordings. Each proposed method could be used and developed upon in
the future to address gaps in the existing literature.
The first study shows how EEG microstate n-grams exhibit varied durations
and frequencies in some participants during concurrent fMRI Co-Activation
Patterns (CAPs). The second study employs a random forest regressor model,
utilising microstate n-gram parameters as features per fMRI time point in a
sliding window, attempting to predict patterns in fMRI activity in a low dimensional
space. In the third study, the focus shifts to conceptualising the EEG
signal as a continuous signal rather than sequence of microstates, with analysis
of microstates occurring post-hoc; a novel means of investigating microstates
which has not yet been attempted.
I also show how existing investigations of microstate syntax may benefit
from adjustments to their processing pipelines in order to better retain the
information apparent in EEG microstate sequences.
Publication date
2024-05-20Funding
Default funderDefault project
Other links
http://hdl.handle.net/2299/28189Metadata
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