EEG Source Reconstruction Reveals Frontal-Parietal Dynamics of Spatial Conflict Processing |
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Authors: | Michael X Cohen K. Richard Ridderinkhof |
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Affiliation: | 1. Department of Psychology, University of Amsterdam, Amsterdam, the Netherlands.; 2. Department of Physiology, University of Arizona, Tucson, Arizona, United States of America.; 3. Cognitive Science Center Amsterdam, University of Amsterdam, Amsterdam, the Netherlands.; University Medical Center Groningen UMCG, Netherlands, |
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Abstract: | Cognitive control requires the suppression of distracting information in order to focus on task-relevant information. We applied EEG source reconstruction via time-frequency linear constrained minimum variance beamforming to help elucidate the neural mechanisms involved in spatial conflict processing. Human subjects performed a Simon task, in which conflict was induced by incongruence between spatial location and response hand. We found an early (∼200 ms post-stimulus) conflict modulation in stimulus-contralateral parietal gamma (30–50 Hz), followed by a later alpha-band (8–12 Hz) conflict modulation, suggesting an early detection of spatial conflict and inhibition of spatial location processing. Inter-regional connectivity analyses assessed via cross-frequency coupling of theta (4–8 Hz), alpha, and gamma power revealed conflict-induced shifts in cortical network interactions: Congruent trials (relative to incongruent trials) had stronger coupling between frontal theta and stimulus-contrahemifield parietal alpha/gamma power, whereas incongruent trials had increased theta coupling between medial frontal and lateral frontal regions. These findings shed new light into the large-scale network dynamics of spatial conflict processing, and how those networks are shaped by oscillatory interactions. |
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