Default mode network abnormalities during state switching in attention deficit hyperactivity disorder
Default mode network abnormalities during state switching in attention deficit hyperactivity disorder
Background: Individuals with attention deficit hyperactivity disorder (ADHD) display excess levels of default mode network (DMN) activity during goal-directed tasks, which are associated with attentional disturbances and performance decrements. One hypothesis is that this is due to attenuated down-regulation of this network during rest-to-task switching. A second related hypothesis is that it may be associated with right anterior insula (rAI) dysfunction – a region thought to control the actual state-switching process.
Method: These hypotheses were tested in the current fMRI study in which 19 adults with ADHD and 21 typically developing controls undertook a novel state-to-state switching paradigm. Advance cues signalled upcoming switches between rest and task periods and switch-related anticipatory modulation of DMN and rAI was measured. To examine whether rest-to-task switching impairments may be a specific example of a more general state regulation deficit, activity upon task-to-rest cues was also analysed.
Results: Against our hypotheses, we found that the process of down-regulating the DMN when preparing to switch from rest to task was unimpaired in ADHD and that there was no switch-specific deficit in rAI modulation. However, individuals with ADHD showed difficulties up-regulating the DMN when switching from task to rest.
Conclusions: Rest-to-task DMN attenuation seems to be intact in adults with ADHD and thus appears unrelated to excess DMN activity observed during tasks. Instead, individuals with ADHD exhibit attenuated up-regulation of the DMN, hence suggesting disturbed re-initiation of a rest state.
attention deficit hyperactivity disorder, default mode network, insula, state switching
519-528
Sidlauskaite, J.
1ee489e1-e041-47d4-ba7c-0f71e6a817ac
Sonuga-Barke, E.
bc80bf95-6cf9-4c76-a09d-eaaf0b717635
Roeyers, H.
c97b7f56-f514-44cb-b7e2-545c68583d6e
Wiersema, J.R.
63bcdcd2-0b4f-4b6d-9a62-0267e389fb7c
February 2016
Sidlauskaite, J.
1ee489e1-e041-47d4-ba7c-0f71e6a817ac
Sonuga-Barke, E.
bc80bf95-6cf9-4c76-a09d-eaaf0b717635
Roeyers, H.
c97b7f56-f514-44cb-b7e2-545c68583d6e
Wiersema, J.R.
63bcdcd2-0b4f-4b6d-9a62-0267e389fb7c
Sidlauskaite, J., Sonuga-Barke, E., Roeyers, H. and Wiersema, J.R.
(2016)
Default mode network abnormalities during state switching in attention deficit hyperactivity disorder.
Psychological Medicine, 46 (3), .
(doi:10.1017/S0033291715002019).
(PMID:26456561)
Abstract
Background: Individuals with attention deficit hyperactivity disorder (ADHD) display excess levels of default mode network (DMN) activity during goal-directed tasks, which are associated with attentional disturbances and performance decrements. One hypothesis is that this is due to attenuated down-regulation of this network during rest-to-task switching. A second related hypothesis is that it may be associated with right anterior insula (rAI) dysfunction – a region thought to control the actual state-switching process.
Method: These hypotheses were tested in the current fMRI study in which 19 adults with ADHD and 21 typically developing controls undertook a novel state-to-state switching paradigm. Advance cues signalled upcoming switches between rest and task periods and switch-related anticipatory modulation of DMN and rAI was measured. To examine whether rest-to-task switching impairments may be a specific example of a more general state regulation deficit, activity upon task-to-rest cues was also analysed.
Results: Against our hypotheses, we found that the process of down-regulating the DMN when preparing to switch from rest to task was unimpaired in ADHD and that there was no switch-specific deficit in rAI modulation. However, individuals with ADHD showed difficulties up-regulating the DMN when switching from task to rest.
Conclusions: Rest-to-task DMN attenuation seems to be intact in adults with ADHD and thus appears unrelated to excess DMN activity observed during tasks. Instead, individuals with ADHD exhibit attenuated up-regulation of the DMN, hence suggesting disturbed re-initiation of a rest state.
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Accepted/In Press date: 10 September 2015
e-pub ahead of print date: 12 October 2015
Published date: February 2016
Keywords:
attention deficit hyperactivity disorder, default mode network, insula, state switching
Organisations:
Clinical Neuroscience
Identifiers
Local EPrints ID: 385983
URI: http://eprints.soton.ac.uk/id/eprint/385983
ISSN: 0033-2917
PURE UUID: 6f36d711-0e04-4e4b-a1bf-2d4a7cf04662
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Date deposited: 27 Jan 2016 10:04
Last modified: 14 Mar 2024 22:25
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Author:
J. Sidlauskaite
Author:
E. Sonuga-Barke
Author:
H. Roeyers
Author:
J.R. Wiersema
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