Contrast subgraphs catch patterns of altered functional connectivity in autism spectrum disorder

Despite the breakthrough achievements in understanding structural and functional alterations of brain connectivity in autism spectrum disorder (ASD), the exact nature and type of such alterations are not yet clear due to conflicting reports of hyper-connectivity, hypo-connectivity, and—in some cases...

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Published in	Scientific reports Vol. 15; no. 1; pp. 24265 - 12
Main Authors	Lanciano, Tommaso, Petri, Giovanni, Gili, Tommaso, Bonchi, Francesco
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 07.07.2025 Nature Publishing Group Nature Portfolio
Subjects	639/766/530/2801 692/699/476/1373 Adolescent Adult Age groups Autism Autism spectrum disorder Autism Spectrum Disorder - diagnostic imaging Autism Spectrum Disorder - physiopathology Biomarkers Brain Brain - physiopathology Brain Mapping Child Connectome - methods Contrast subgraphs Cortex (parietal) Datasets Developmental stages Female Frontal gyrus Functional brain networks Functional connectivity Graphs Humanities and Social Sciences Humans Magnetic Resonance Imaging Male multidisciplinary Nerve Net - physiopathology Network neuroscience Neural networks Occipital lobe Parietal Lobe - physiopathology Science Science (multidisciplinary) Structure-function relationships Teenagers Temporal lobe Young Adult Functional connectivity Contrast subgraphs Network neuroscience Functional brain networks Autism spectrum disorder
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Abstract	Despite the breakthrough achievements in understanding structural and functional alterations of brain connectivity in autism spectrum disorder (ASD), the exact nature and type of such alterations are not yet clear due to conflicting reports of hyper-connectivity, hypo-connectivity, and—in some cases—combinations of both. In this work, we bring order to the debate using a network comparison technique to capture mesoscopic-scale differential patterns of functional connectedness. In particular, we leverage recent algorithmic advances in extracting contrast subgraphs to identify maximally different mesoscopic connectivity structures between two sets of networks from typically developed individuals and ASD subjects across different developmental stages. A significantly larger connectivity among occipital cortex regions and between the left precuneus and the superior parietal gyrus was found in ASD subjects. At the same time, reduced connectivity characterized the superior frontal gyrus and the temporal lobe regions. More importantly, our results reconcile within a single framework multiple previous separate observations about functional connectivity alterations in ASD.
AbstractList	Despite the breakthrough achievements in understanding structural and functional alterations of brain connectivity in autism spectrum disorder (ASD), the exact nature and type of such alterations are not yet clear due to conflicting reports of hyper-connectivity, hypo-connectivity, and—in some cases—combinations of both. In this work, we bring order to the debate using a network comparison technique to capture mesoscopic-scale differential patterns of functional connectedness. In particular, we leverage recent algorithmic advances in extracting contrast subgraphs to identify maximally different mesoscopic connectivity structures between two sets of networks from typically developed individuals and ASD subjects across different developmental stages. A significantly larger connectivity among occipital cortex regions and between the left precuneus and the superior parietal gyrus was found in ASD subjects. At the same time, reduced connectivity characterized the superior frontal gyrus and the temporal lobe regions. More importantly, our results reconcile within a single framework multiple previous separate observations about functional connectivity alterations in ASD. Abstract Despite the breakthrough achievements in understanding structural and functional alterations of brain connectivity in autism spectrum disorder (ASD), the exact nature and type of such alterations are not yet clear due to conflicting reports of hyper-connectivity, hypo-connectivity, and—in some cases—combinations of both. In this work, we bring order to the debate using a network comparison technique to capture mesoscopic-scale differential patterns of functional connectedness. In particular, we leverage recent algorithmic advances in extracting contrast subgraphs to identify maximally different mesoscopic connectivity structures between two sets of networks from typically developed individuals and ASD subjects across different developmental stages. A significantly larger connectivity among occipital cortex regions and between the left precuneus and the superior parietal gyrus was found in ASD subjects. At the same time, reduced connectivity characterized the superior frontal gyrus and the temporal lobe regions. More importantly, our results reconcile within a single framework multiple previous separate observations about functional connectivity alterations in ASD. Despite the breakthrough achievements in understanding structural and functional alterations of brain connectivity in autism spectrum disorder (ASD), the exact nature and type of such alterations are not yet clear due to conflicting reports of hyper-connectivity, hypo-connectivity, and-in some cases-combinations of both. In this work, we bring order to the debate using a network comparison technique to capture mesoscopic-scale differential patterns of functional connectedness. In particular, we leverage recent algorithmic advances in extracting contrast subgraphs to identify maximally different mesoscopic connectivity structures between two sets of networks from typically developed individuals and ASD subjects across different developmental stages. A significantly larger connectivity among occipital cortex regions and between the left precuneus and the superior parietal gyrus was found in ASD subjects. At the same time, reduced connectivity characterized the superior frontal gyrus and the temporal lobe regions. More importantly, our results reconcile within a single framework multiple previous separate observations about functional connectivity alterations in ASD.Despite the breakthrough achievements in understanding structural and functional alterations of brain connectivity in autism spectrum disorder (ASD), the exact nature and type of such alterations are not yet clear due to conflicting reports of hyper-connectivity, hypo-connectivity, and-in some cases-combinations of both. In this work, we bring order to the debate using a network comparison technique to capture mesoscopic-scale differential patterns of functional connectedness. In particular, we leverage recent algorithmic advances in extracting contrast subgraphs to identify maximally different mesoscopic connectivity structures between two sets of networks from typically developed individuals and ASD subjects across different developmental stages. A significantly larger connectivity among occipital cortex regions and between the left precuneus and the superior parietal gyrus was found in ASD subjects. At the same time, reduced connectivity characterized the superior frontal gyrus and the temporal lobe regions. More importantly, our results reconcile within a single framework multiple previous separate observations about functional connectivity alterations in ASD.
ArticleNumber	24265
Author	Gili, Tommaso Lanciano, Tommaso Petri, Giovanni Bonchi, Francesco
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Keywords	Functional connectivity Contrast subgraphs Network neuroscience Functional brain networks Autism spectrum disorder
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Snippet	Despite the breakthrough achievements in understanding structural and functional alterations of brain connectivity in autism spectrum disorder (ASD), the exact... Abstract Despite the breakthrough achievements in understanding structural and functional alterations of brain connectivity in autism spectrum disorder (ASD),...
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SubjectTerms	639/766/530/2801 692/699/476/1373 Adolescent Adult Age groups Autism Autism spectrum disorder Autism Spectrum Disorder - diagnostic imaging Autism Spectrum Disorder - physiopathology Biomarkers Brain Brain - physiopathology Brain Mapping Child Connectome - methods Contrast subgraphs Cortex (parietal) Datasets Developmental stages Female Frontal gyrus Functional brain networks Functional connectivity Graphs Humanities and Social Sciences Humans Magnetic Resonance Imaging Male multidisciplinary Nerve Net - physiopathology Network neuroscience Neural networks Occipital lobe Parietal Lobe - physiopathology Science Science (multidisciplinary) Structure-function relationships Teenagers Temporal lobe Young Adult
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Title	Contrast subgraphs catch patterns of altered functional connectivity in autism spectrum disorder
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