Functional connectivity derived from an electroencephalogram during non-REM sleep in autism spectrum disorders

Functional connectivity derived from an electroencephalogram during non-REM sleep in autism spectrum disorders

To know the differences in the patterns of functional connectivity, the topological characteristics of the network and the relationship between these latter and the interictal epileptiform anomalies in children with primary and secondary autism spectrum disorder (ASD). A retrospective study was cond...

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Bibliographic Details
Published in:Revista de neurologiá Vol. 67; no. 2; pp. 41 - 49
Main Authors: Berrillo-Batista, S, Morales-Chacon, L M, Baez-Martin, M M, Gomez-Fernandez, L, Vera-Cuesta, H, Maragoto-Rizo, C, Sanchez-Coroneaux, A, Perez-Mayo, L
Format: Journal Article
Language:Spanish
Published: Spain 15-07-2018
Subjects:
Adolescent
Autism Spectrum Disorder - physiopathology
Brain Waves - physiology
Child
Child, Preschool
Connectome
Electroencephalography
Electroencephalography Phase Synchronization - physiology
Female
Humans
Male
Retrospective Studies
Sleep Stages - physiology
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Summary:To know the differences in the patterns of functional connectivity, the topological characteristics of the network and the relationship between these latter and the interictal epileptiform anomalies in children with primary and secondary autism spectrum disorder (ASD). A retrospective study was conducted with 27 children aged between 3 and 13 years diagnosed with ASD. Subjects were submitted to an electroencephalogram in a functional state of spontaneous sleep. Functional connectivity and the properties of the network were analysed using data obtained from the electroencephalogram during the N2 stage of non-REM sleep. The frequency of discharge of the interictal epileptiform activity (FDIEA) was determined and was correlated with the topological properties of the network. Synchronisation was diminished in patients with secondary ASD for the alpha frequency and increased for the theta and delta frequency compared with patients with primary ASD. Local alpha efficiency was higher in patients who presented interictal epileptiform activity. Additionally, in patients with secondary ASD there was a statistically significant positive and negative correlation between FDIEA and the topological properties of the network. Patients with secondary ASD display patterns of functional connectivity that are weaker for the alpha frequency and stronger for theta and delta than patients with primary ASD. In patients with secondary ASD, the interictal epileptiform activity is related to local and global connectivity of the network for the alpha and beta bands during non-REM sleep.
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ISSN:1576-6578
DOI:10.33588/rn.6702.2018094