Hemodynamic research has recently clarified key nodes and links in brain networks implementing inhibitory control. Although fMRI methods are optimized for identifying the structure of brain networks, the relatively slow temporal course of fMRI limits the ability to characterize network operation. The latter is crucial for developing a mechanistic understanding of how brain networks shift dynamically to support inhibitory control. To address this critical gap, we applied spectrally resolved Granger causality (GC) and random forest machine learning tools to human EEG data in two large samples of adults (test sample n = 96, replication sample n = 237, total N = 333, both sexes) who performed a color–word Stroop task. Time–frequency analysis co...
A network of prefrontal and parietal regions has been implicated in executive control processes. How...
Accomplishing even simple tasks depend on neuronal circuits to configure how incoming sensory stimul...
We propose Granger causality mapping (GCM) as an approach to explore directed influences between neu...
The anatomical structure of the human brain varies widely, as does individual cognitive behavior. It...
What are the neurophysiological determinants of sustained supra-normal inhibitory control performan...
The ability to inhibit behavior is crucial for adaptation in a fast changing environment and is comm...
Executive control comprises a set of neural processes that are critical for goal-directed behaviors,...
Inhibitory control requires precise regulation of activity and connectivity within multiple brain ne...
What are the neurophysiological determinants of sustained supra-normal inhibitory control performanc...
Estimation of causal interactions between brain areas is necessary for elucidating large-scale funct...
Inhibitory control requires precise regulation of activity and connectivity within multiple brain ne...
Reactive control of response inhibition is associated with a right-lateralised cortical network, as ...
Inhibitory control requires precise regulation of activity and connectivity within multiple brain ne...
Inappropriate response tendencies may be stopped via a specific fronto/basal ganglia/primary motor c...
The human brain carries out cognitive control for the inhibition of habitual behaviors by suppressin...
A network of prefrontal and parietal regions has been implicated in executive control processes. How...
Accomplishing even simple tasks depend on neuronal circuits to configure how incoming sensory stimul...
We propose Granger causality mapping (GCM) as an approach to explore directed influences between neu...
The anatomical structure of the human brain varies widely, as does individual cognitive behavior. It...
What are the neurophysiological determinants of sustained supra-normal inhibitory control performan...
The ability to inhibit behavior is crucial for adaptation in a fast changing environment and is comm...
Executive control comprises a set of neural processes that are critical for goal-directed behaviors,...
Inhibitory control requires precise regulation of activity and connectivity within multiple brain ne...
What are the neurophysiological determinants of sustained supra-normal inhibitory control performanc...
Estimation of causal interactions between brain areas is necessary for elucidating large-scale funct...
Inhibitory control requires precise regulation of activity and connectivity within multiple brain ne...
Reactive control of response inhibition is associated with a right-lateralised cortical network, as ...
Inhibitory control requires precise regulation of activity and connectivity within multiple brain ne...
Inappropriate response tendencies may be stopped via a specific fronto/basal ganglia/primary motor c...
The human brain carries out cognitive control for the inhibition of habitual behaviors by suppressin...
A network of prefrontal and parietal regions has been implicated in executive control processes. How...
Accomplishing even simple tasks depend on neuronal circuits to configure how incoming sensory stimul...
We propose Granger causality mapping (GCM) as an approach to explore directed influences between neu...