Author:
Barttfeld Pablo,Amoruso Lucía,Ais Joaquín,Cukier Sebastián,Bavassi Luz,Tomio Ailin,Manes Facundo,Ibanez Agustín,Sigman Mariano
Abstract
Abstract
Background
The dimensional approach to autism spectrum disorder (ASD) considers ASD as the extreme of a dimension traversing through the entire population. We explored the potential utility of electroencephalography (EEG) functional connectivity as a biomarker. We hypothesized that individual differences in autistic traits of typical subjects would involve a long-range connectivity diminution within the delta band.
Methods
Resting-state EEG functional connectivity was measured for 74 neurotypical subjects. All participants also provided a questionnaire (Social Responsiveness Scale, SRS) that was completed by an informant who knows the participant in social settings. We conducted multivariate regression between the SRS score and functional connectivity in all EEG frequency bands. We explored modulations of network graph metrics characterizing the optimality of a network using the SRS score.
Results
Our results show a decay in functional connectivity mainly within the delta and theta bands (the lower part of the EEG spectrum) associated with an increasing number of autistic traits. When inspecting the impact of autistic traits on the global organization of the functional network, we found that the optimal properties of the network are inversely related to the number of autistic traits, suggesting that the autistic dimension, throughout the entire population, modulates the efficiency of functional brain networks.
Conclusions
EEG functional connectivity at low frequencies and its associated network properties may be associated with some autistic traits in the general population.
Publisher
Springer Science and Business Media LLC
Subject
Cognitive Neuroscience,Neurology (clinical),Pathology and Forensic Medicine,Pediatrics, Perinatology and Child Health
Cited by
47 articles.
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