Neuromagnetic correlates of developmental changes in endogenous high-frequency brain oscillations in children: A wavelet-based beamformer study

Neuromagnetic correlates of developmental changes in endogenous high-frequency brain oscillations in children: A wavelet-based beamformer study

Abstract Recent studies have found that the brain generates very fast oscillations. The objective of the present study was to investigate the spectral, spatial and coherent features of high-frequency brain oscillations in the developing brain. Sixty healthy children and 20 healthy adults were studie...

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Published in:Brain research Vol. 1274; pp. 28 - 39
Main Authors: Xiang, Jing, Liu, Yang, Wang, Yingying, Kotecha, Rupesh, Kirtman, Elijah G, Chen, Yangmei, Huo, Xiaolin, Fujiwara, Hisako, Hemasilpin, Nat, deGrauw, Ton, Rose, Douglas
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 05-06-2009
Elsevier
Subjects:
Adolescent
Adult
Biological and medical sciences
Brain
Brain - growth & development
Brain - physiology
Brain Mapping
Child
Development
Development. Senescence. Regeneration. Transplantation
Female
Fundamental and applied biological sciences. Psychology
High-frequency oscillation
Humans
Image Interpretation, Computer-Assisted
Magnetic Resonance Imaging
Magnetic source imaging
Magnetoencephalography
Male
Neurogenesis - physiology
Neurology
Vertebrates: nervous system and sense organs
Development
Brain
Magnetic source imaging
High-frequency oscillation
Magnetoencephalography
Child
Human
Imaging
Central nervous system
Oscillation
High frequency
Encephalon
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Summary:Abstract Recent studies have found that the brain generates very fast oscillations. The objective of the present study was to investigate the spectral, spatial and coherent features of high-frequency brain oscillations in the developing brain. Sixty healthy children and 20 healthy adults were studied using a 275-channel magnetoencephalography (MEG) system. MEG data were digitized at 12,000 Hz. The frequency characteristics of neuromagnetic signals in 0.5–2000 Hz were quantitatively determined with Morlet wavelet transform. The magnetic sources were volumetrically estimated with wavelet-based beamformer at 2.5 mm resolution. The neural networks of endogenous brain oscillations were analyzed with coherent imaging. Neuromagnetic activities in 8–12 Hz and 800–900 Hz were found to be the most reliable frequency bands in healthy children. The neuromagnetic signals were localized in the occipital, temporal and frontal cortices. The activities in the occipital and temporal cortices were strongly correlated in 8–12 Hz but not in 800–900 Hz. In comparison to adults, children had brain oscillations in intermingled frequency bands. Developmental changes in children were identified for both low- and high-frequency brain activities. The results of the present study suggest that the development of the brain is associated with spatial and coherent changes of endogenous brain activities in both low- and high-frequency ranges. Analysis of high-frequency neuromagnetic oscillation may provide novel insights into cerebral mechanisms of brain function. The noninvasive measurement of neuromagnetic brain oscillations in the developing brain may open a new window for analysis of brain function.
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ISSN:0006-8993
1872-6240
DOI:10.1016/j.brainres.2009.03.068