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The World Journal of Biological Psychiatry Volume 21, 2020 - Issue 9
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Review Article

Resting-state network dysconnectivity in ADHD: A system-neuroscience-based meta-analysis

Bernis Sutcubasia Department of Psychology, Faculty of Humanities and Social Sciences, Uskudar University, Istanbul, TurkeyORCID Iconhttps://orcid.org/0000-0002-7796-1841
ORCID Icon,
Baris Metina Department of Psychology, Faculty of Humanities and Social Sciences, Uskudar University, Istanbul, TurkeyCorrespondence[email protected]
,
Mustafa Kerem Kurbanb Department of Molecular Biology and Genetics, Bogazici University, Istanbul, Turkey;c Interdisiplinary Graduate Program in Neuroscience, Bilkent University, Ankara, Turkey
,
Zeynep Elcin Metind Department of Psychology, Bogazici University, Istanbul, Turkey
,
Birsu Besere Department of Neuroscience, İstanbul University, Istanbul, Turkey
&
Edmund Sonuga-Barkef Department of Developmental Psychology, Psychiatry & Neuroscience, King’s College London, Denmark Hill, UKORCID Iconhttps://orcid.org/0000-0002-6996-3935
ORCID Icon
Pages 662-672 | Received 01 Jul 2019, Accepted 24 May 2020, Published online: 30 Jun 2020
 
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Abstract

Objectives

Neuroimaging studies report altered resting-state functional connectivity in attention deficit/hyperactivity disorder (ADHD) across multiple brain systems. However, there is inconsistency among individual studies.

Methods

We meta-analyzed seed-based resting state studies of ADHD connectivity within and between four established resting state brain networks (default mode, cognitive control, salience, affective/motivational) using Multilevel Kernel Density Analysis method.

Results

Twenty studies with 944 ADHD patients and 1121 controls were included in the analysis. Compared to controls, ADHD was associated with disrupted within-default mode network (DMN) connectivity – reduced in the core (i.e. posterior cingulate cortex seed) but elevated in the dorsal medial prefrontal cortex sub-system (i.e. temporal pole-inferior frontal gyrus). Connectivity was elevated between nodes in the cognitive control system. When the analysis was restricted to children and adolescents, additional reduced connectivity was detected between DMN and cognitive control and affective/motivational and salience networks.

Conclusions

Our data are consistent with the hypothesis that paediatric ADHD is a DMN-dysconnectivity disorder with reduced connectivity both within the core DMN sub-system and between that system and a broad set of nodes in systems involved in cognition and motivation.

Acknowledgements

The authors would like to thank their tutors and colleagues for their time and valuable help.

Disclosure statement

No potential conflict of interest was reported by the author(s).

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