Investigating context-dependent modulations of Functional Connectivity (FC) with functional magnetic resonance imaging is crucial to reveal the neurological underpinnings of cognitive processing. Most current analysis methods hypothesise sustained FC within the duration of a task, but this assumption has been shown too limiting by recent imaging studies. While several methods have been proposed to study functional dynamics during rest, task-based studies are yet to fully disentangle network modulations. Here, we propose a seed-based method to probe task-dependent modulations of brain activity by revealing Psychophysiological Interactions of Co-activation Patterns (PPI-CAPs). This point process-based approach temporally decomposes task-modul...
The research explores the functional architecture of the brain using fMRI in combination with behavi...
How spontaneously fluctuating functional magnetic resonance imaging (fMRI) signals in different brai...
The human brain is known to contain several functional networks that interact dynamically. Therefore...
Studying task modulations of brain connectivity using functional magnetic resonance imaging (fMRI) i...
Task-based functional magnetic resonance imaging bears great potential to understand how our brain r...
Task-based functional magnetic resonance imaging bears great potential to understand how our brain r...
Functional connectivity (FC) measured from functional magnetic resonance imaging (fMRI) provides a p...
Dynamics of resting-state functional magnetic resonance imaging (fMRI) provide a new window onto the...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...
The study of large-scale functional interactions in the human brain with functional magnetic resonan...
Resting-state functional connectivity is used throughout neuroscience to study brain organization an...
Identifying the statistical interdependence (functional connectivity, FC) between brain regions usin...
Dynamic functional connectivity (dFC) measured by functional magnetic resonance imaging (fMRI) shows...
How and why functional connectivity (FC), which captures the correlations among brain regions and/or...
The research explores the functional architecture of the brain using fMRI in combination with behavi...
How spontaneously fluctuating functional magnetic resonance imaging (fMRI) signals in different brai...
The human brain is known to contain several functional networks that interact dynamically. Therefore...
Studying task modulations of brain connectivity using functional magnetic resonance imaging (fMRI) i...
Task-based functional magnetic resonance imaging bears great potential to understand how our brain r...
Task-based functional magnetic resonance imaging bears great potential to understand how our brain r...
Functional connectivity (FC) measured from functional magnetic resonance imaging (fMRI) provides a p...
Dynamics of resting-state functional magnetic resonance imaging (fMRI) provide a new window onto the...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...
The study of large-scale functional interactions in the human brain with functional magnetic resonan...
Resting-state functional connectivity is used throughout neuroscience to study brain organization an...
Identifying the statistical interdependence (functional connectivity, FC) between brain regions usin...
Dynamic functional connectivity (dFC) measured by functional magnetic resonance imaging (fMRI) shows...
How and why functional connectivity (FC), which captures the correlations among brain regions and/or...
The research explores the functional architecture of the brain using fMRI in combination with behavi...
How spontaneously fluctuating functional magnetic resonance imaging (fMRI) signals in different brai...
The human brain is known to contain several functional networks that interact dynamically. Therefore...