Abnormal Degree Centrality in Children with Low-Function Autism Spectrum Disorders: A Sleeping-State Functional Magnetic Resonance Imaging Study

Purpose: This study used the graph-theory approach, degree centrality (DC) to analyze whole-brain functional networks at the voxel level in children with ASD, and investigated whether DC changes were correlated with any clinical variables in ASD children. Methods: The current study included 86 child...

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Published in:Neuropsychiatric disease and treatment 2022-01, Vol.18, p.1363-1374
Main Authors: Xu, Shoujun, Li, Meng, Yang, Chunlan, Fang, Xiangling, Ye, Miaoting, Wu, Yunfan, Yang, Binrang, Huang, Wenxian, Li, Peng, Ma, Xiaofen, Fu, Shishun, Yin, Yi, Tian, Junzhang, Gan, Yungen, Jiang, Guihua
Format: Article
Language:English
Subjects:
asd
Autism
autism spectrum disorders
Brain mapping
Children
Chloral hydrate
Correlation analysis
Data processing
degreecentrality
fmri
Frontal gyrus
Functional magnetic resonance imaging
Health aspects
Magnetic resonance imaging
Mental disorders
Neural circuitry
Neuroimaging
Original Research
pearson’s correlation analysis
Pediatric research
Pervasive developmental disorders
Physiological aspects
Preschool children
Psychological aspects
Sleep
Spectrum analysis
Tomography
whole-brain functional networks
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Summary:Purpose: This study used the graph-theory approach, degree centrality (DC) to analyze whole-brain functional networks at the voxel level in children with ASD, and investigated whether DC changes were correlated with any clinical variables in ASD children. Methods: The current study included 86 children with ASD and 54 matched healthy subjects Aged 2-5.5 years. Next, chloral hydrate induced sleeping-state functional magnetic resonance imaging (ss-fMRI) datasets were acquired from these ASD and healthy subjects. For a given voxel, the DC was calculated by calculating the number of functional connections with significantly positive correlations at the individual level. Group differences were tested using two-sample t-tests (p < 0.01, AlphaSim corrected). Finally, relationships between abnormal DCs and clinical variables were investigated via Pearson's correlation analysis. Results: Children with ASD exhibited low DC values in the right middle frontal gyrus (MFG) (p < 0.01, AlphaSim corrected). Furthermore, significantly negative correlations were established between the decreased average DC values within the right MFG in ASD children and the total ABC scores, as well as with two ABC subscales measuring highly relevant impairments in ASD (ie, stereotypes and object-use behaviors and difficulties in language). Conclusion: Taken together, the results of our ss-fMRI study suggest that abnormal DC may represent an important contribution to elucidation of the neuropathophysiological mechanisms of preschoolers with ASD. Keywords: autism spectrum disorders, ASD, functional magnetic resonance imaging, fMRI, Degree centrality, DC, whole-brain functional networks, Pearson's correlation analysis
ISSN:1178-2021
1176-6328
1178-2021
DOI:10.2147/NDT.S367104