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Saccades and presaccadic stimulus repetition alter cortical network topology and dynamics: evidence from EEG and graph theoretical analysis

Amirhossein Ghaderi, Matthias Niemeier, J. Douglas Crawford

2022Cerebral Cortex15 citationsDOI

Abstract

Parietal and frontal cortex are involved in saccade generation, and their output signals modify visual signals throughout cortex. Local signals associated with these interactions are well described, but their large-scale progression and network dynamics are unknown. Here, we combined source localized electroencephalography (EEG) and graph theory analysis (GTA) to understand how saccades and presaccadic visual stimuli interactively alter cortical network dynamics in humans. Twenty-one participants viewed 1-3 vertical/horizontal grids, followed by grid with the opposite orientation just before a horizontal saccade or continued fixation. EEG signals from the presaccadic interval (or equivalent fixation period) were used for analysis. Source localization-through-time revealed a rapid frontoparietal progression of presaccadic motor signals and stimulus-motor interactions, with additional band-specific modulations in several frontoparietal regions. GTA analysis revealed a saccade-specific functional network with major hubs in inferior parietal cortex (alpha) and the frontal eye fields (beta), and major saccade-repetition interactions in left prefrontal (theta) and supramarginal gyrus (gamma). This network showed enhanced segregation, integration, synchronization, and complexity (compared with fixation), whereas stimulus repetition interactions reduced synchronization and complexity. These cortical results demonstrate a widespread influence of saccades on both regional and network dynamics, likely responsible for both the motor and perceptual aspects of saccades.

Topics & Concepts

SaccadeNeurosciencePsychologyStimulus (psychology)Fixation (population genetics)Frontal eye fieldsElectroencephalographyEye movementPosterior parietal cortexParietal lobeSupramarginal gyrusPrefrontal cortexCognitive psychologyCognitionFunctional magnetic resonance imagingBiologyBiochemistryGeneNeural dynamics and brain functionFunctional Brain Connectivity StudiesVisual perception and processing mechanisms
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