Kaia Sargent scite author profile

The hallmark of resting EEG spectra are distinct rhythms emerging from a broadband, aperiodic background. This aperiodic neural signature accounts for most of total EEG power, although its significance and relation to functional neuroanatomy remains obscure. We hypothesized that aperiodic EEG reflects a significant metabolic expenditure and therefore might be associated with the default mode network while at rest. During eyes-open, resting-state recordings of simultaneous EEG-fMRI, we find that aperiodic and periodic components of EEG power are only minimally associated with activity in the default mode network. However, a whole-brain analysis identifies increases in aperiodic power correlated with hemodynamic activity in an auditory-salience-cerebellar network, and decreases in aperiodic power are correlated with hemodynamic activity in prefrontal regions. Desynchronization in residual alpha and beta power is associated with visual and sensorimotor hemodynamic activity, respectively. These findings suggest that resting-state EEG signals acquired in an fMRI scanner reflect a balance of top-down and bottom-up stimulus processing, even in the absence of an explicit task.HIGHLIGHTSPeriodic and aperiodic EEG parameters associated with distinct resting-state networksIncreases in aperiodic power associated with an auditory-salience-cerebellar networkDecreases in aperiodic power associated with prefrontal regionsGlobal neural excitability may reflect stimulus processing or arousal attributable to the uniqueness of the resting-state MR-scanner environment

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Resting-state brain oscillations predict cognitive function in psychiatric disorders: A transdiagnostic machine learning approach

Sargent

Chavez-Baldini

Master

et al. 2021

NeuroImage: Clinical

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Highlights Resting EEG activity associated with cognitive function in psychiatric disorders. Using EEG, random forest modeling predicts cognitive performance but not diagnosis. High alpha oscillations associated with better episodic memory and processing speed. Beta oscillations associated with worse performance in several cognitive domains. EEG power changes in psychiatric disorders may be related to cognitive dysfunction.

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Hybrid Harmony: A Multi-Person Neurofeedback Application for Interpersonal Synchrony

Chen

Hendrikse

Sargent

et al. 2021

Front. Neuroergonomics

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Recent years have seen a dramatic increase in studies measuring brain activity, physiological responses, and/or movement data from multiple individuals during social interaction. For example, so-called “hyperscanning” research has demonstrated that brain activity may become synchronized across people as a function of a range of factors. Such findings not only underscore the potential of hyperscanning techniques to capture meaningful aspects of naturalistic interactions, but also raise the possibility that hyperscanning can be leveraged as a tool to help improve such naturalistic interactions. Building on our previous work showing that exposing dyads to real-time inter-brain synchrony neurofeedback may help boost their interpersonal connectedness, we describe the biofeedback application Hybrid Harmony, a Brain-Computer Interface (BCI) that supports the simultaneous recording of multiple neurophysiological datastreams and the real-time visualization and sonification of inter-subject synchrony. We report results from 236 dyads experiencing synchrony neurofeedback during naturalistic face-to-face interactions, and show that pairs' social closeness and affective personality traits can be reliably captured with the inter-brain synchrony neurofeedback protocol, which incorporates several different online inter-subject connectivity analyses that can be applied interchangeably. Hybrid Harmony can be used by researchers who wish to study the effects of synchrony biofeedback, and by biofeedback artists and serious game developers who wish to incorporate multiplayer situations into their practice.

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Kaia Sargent

Aperiodic measures of neural excitability are associated with anticorrelated hemodynamic networks at rest: A combined EEG-fMRI study

Aperiodic measures of neural excitability are associated with anticorrelated hemodynamic networks at rest: a combined EEG-fMRI study

Resting-state brain oscillations predict cognitive function in psychiatric disorders: A transdiagnostic machine learning approach

Hybrid Harmony: A Multi-Person Neurofeedback Application for Interpersonal Synchrony

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