Longitudinal EEG power in the first postnatal year differentiates autism outcomes

Longitudinal EEG power in the first postnatal year differentiates autism outcomes

Brain oscillations may be disrupted in children with autism spectrum disorder. The authors performed a longitudinal study of electroencephalography recordings and found that EEG recordings from the first year after birth can distinguish healthy children from children with autism spectrum disorder.

Bibliographic Details
Main Authors: Laurel J. Gabard-Durnam, Carol Wilkinson, Kush Kapur, Helen Tager-Flusberg, April R. Levin, Charles A. Nelson
Format: Article
Language:English
Published: Nature Publishing Group 2019-09-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-019-12202-9
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spelling doaj-7cb5fd06c2e14a578ab177529c697c4b2021-05-11T12:09:58ZengNature Publishing GroupNature Communications2041-17232019-09-0110111210.1038/s41467-019-12202-9Longitudinal EEG power in the first postnatal year differentiates autism outcomesLaurel J. Gabard-Durnam0Carol Wilkinson1Kush Kapur2Helen Tager-Flusberg3April R. Levin4Charles A. Nelson5Division of Developmental Medicine, Boston Children’s Hospital, Harvard Medical SchoolDivision of Developmental Medicine, Boston Children’s Hospital, Harvard Medical SchoolDepartment of Neurology, Boston Children’s Hospital, Harvard Medical SchoolDepartment of Psychological and Brain Sciences, Boston UniversityDivision of Developmental Medicine, Boston Children’s Hospital, Harvard Medical SchoolDivision of Developmental Medicine, Boston Children’s Hospital, Harvard Medical SchoolBrain oscillations may be disrupted in children with autism spectrum disorder. The authors performed a longitudinal study of electroencephalography recordings and found that EEG recordings from the first year after birth can distinguish healthy children from children with autism spectrum disorder.https://doi.org/10.1038/s41467-019-12202-9
collection DOAJ
language English
format Article
sources DOAJ
author Laurel J. Gabard-Durnam
Carol Wilkinson
Kush Kapur
Helen Tager-Flusberg
April R. Levin
Charles A. Nelson
spellingShingle Laurel J. Gabard-Durnam
Carol Wilkinson
Kush Kapur
Helen Tager-Flusberg
April R. Levin
Charles A. Nelson
Longitudinal EEG power in the first postnatal year differentiates autism outcomes
Nature Communications
author_facet Laurel J. Gabard-Durnam
Carol Wilkinson
Kush Kapur
Helen Tager-Flusberg
April R. Levin
Charles A. Nelson
author_sort Laurel J. Gabard-Durnam
title Longitudinal EEG power in the first postnatal year differentiates autism outcomes
title_short Longitudinal EEG power in the first postnatal year differentiates autism outcomes
title_full Longitudinal EEG power in the first postnatal year differentiates autism outcomes
title_fullStr Longitudinal EEG power in the first postnatal year differentiates autism outcomes
title_full_unstemmed Longitudinal EEG power in the first postnatal year differentiates autism outcomes
title_sort longitudinal eeg power in the first postnatal year differentiates autism outcomes
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2019-09-01
description Brain oscillations may be disrupted in children with autism spectrum disorder. The authors performed a longitudinal study of electroencephalography recordings and found that EEG recordings from the first year after birth can distinguish healthy children from children with autism spectrum disorder.
url https://doi.org/10.1038/s41467-019-12202-9
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AT carolwilkinson longitudinaleegpowerinthefirstpostnatalyeardifferentiatesautismoutcomes
AT kushkapur longitudinaleegpowerinthefirstpostnatalyeardifferentiatesautismoutcomes
AT helentagerflusberg longitudinaleegpowerinthefirstpostnatalyeardifferentiatesautismoutcomes
AT aprilrlevin longitudinaleegpowerinthefirstpostnatalyeardifferentiatesautismoutcomes
AT charlesanelson longitudinaleegpowerinthefirstpostnatalyeardifferentiatesautismoutcomes
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