Dysmaturation of the default mode network in autism

Stuart D. Washington; Evan M. Gordon; Jasmit Brar; Samantha Warburton; Alice T. Sawyer; Amanda Wolfe; Erin R. Mease-Ference; Laura Girton; Ayichew Hailu; Juma Mbwana; William D. Gaillard; M. Layne Kalbfleisch; John W. Vanmeter

doi:10.1002/hbm.22252

Dysmaturation of the default mode network in autism

Stuart D. Washington, Evan M. Gordon, Jasmit Brar, Samantha Warburton, Alice T. Sawyer, Amanda Wolfe, Erin R. Mease-Ference, Laura Girton, Ayichew Hailu, Juma Mbwana, William D. Gaillard, M. Layne Kalbfleisch, John W. Vanmeter

Research output: Contribution to journal › Article › peer-review

199 Scopus citations

Abstract

Two hypotheses of autism spectrum disorder (ASD) propose that this condition is characterized by deficits in Theory of Mind and by hypoconnectivity between remote cortical regions with hyperconnectivity locally. The default mode network (DMN) is a set of remote, functionally connected cortical nodes less active during executive tasks than at rest and is implicated in Theory of Mind, episodic memory, and other self-reflective processes. We show that children with ASD have reduced connectivity between DMN nodes and increased local connectivity within DMN nodes and the visual and motor resting-state networks. We show that, like the trajectory of synaptogenesis, internodal DMN functional connectivity increased as a quadratic function of age in typically developing children, peaking between, 11 and 13 years. In children with ASD, these long-distance connections fail to develop during adolescence. These findings support the "developmental disconnection model" of ASD, provide a possible mechanistic explanation for the Theory-of-Mind hypothesis of ASD, and show that the window for effectively treating ASD could be wider than previously thought.

Original language	English
Pages (from-to)	1284-1296
Number of pages	13
Journal	Human Brain Mapping
Volume	35
Issue number	4
DOIs	https://doi.org/10.1002/hbm.22252
State	Published - Apr 2014

Keywords

Autism
Default mode network
Development
Functional connectivity
Synaptogenesis
Theory of mind

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10.1002/hbm.22252

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title = "Dysmaturation of the default mode network in autism",

abstract = "Two hypotheses of autism spectrum disorder (ASD) propose that this condition is characterized by deficits in Theory of Mind and by hypoconnectivity between remote cortical regions with hyperconnectivity locally. The default mode network (DMN) is a set of remote, functionally connected cortical nodes less active during executive tasks than at rest and is implicated in Theory of Mind, episodic memory, and other self-reflective processes. We show that children with ASD have reduced connectivity between DMN nodes and increased local connectivity within DMN nodes and the visual and motor resting-state networks. We show that, like the trajectory of synaptogenesis, internodal DMN functional connectivity increased as a quadratic function of age in typically developing children, peaking between, 11 and 13 years. In children with ASD, these long-distance connections fail to develop during adolescence. These findings support the {"}developmental disconnection model{"} of ASD, provide a possible mechanistic explanation for the Theory-of-Mind hypothesis of ASD, and show that the window for effectively treating ASD could be wider than previously thought.",

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AU - Mease-Ference, Erin R.

AU - Girton, Laura

AU - Hailu, Ayichew

AU - Mbwana, Juma

AU - Gaillard, William D.

AU - Kalbfleisch, M. Layne

AU - Vanmeter, John W.

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Dysmaturation of the default mode network in autism

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