Double-dissociation between the mechanism leading to impulsivity and inattention in Attention Deficit Hyperactivity Disorder: a resting-state functional connectivity study.
Double-dissociation between the mechanism leading to impulsivity and inattention in Attention Deficit Hyperactivity Disorder: a resting-state functional connectivity study.
Two core symptoms characterize Attention Deficit Hyperactivity Disorder (ADHD) subtypes: inattentiveness and hyperactivity-impulsivity. While previous brain imaging research investigated ADHD as if it was a homogenous condition, its two core symptoms may originate from different brain mechanisms. We, therefore, hypothesized that the functional connectivity of cortico-striatal and attentional networks would be different between ADHD subtypes. We studied 165 children (mean age 10.93 years; age range, 7-17 year old) diagnosed as having ADHD based on their revised Conner's rating scale score and 170 typical developing individuals (mean age 11.46 years; age range, 7-17 year old) using resting state functional fMRI. Groups were matched for age, IQ and head motion during the MRI acquisition. We fractionated the ADHD group into predominantly inattentive, hyperactive-impulsive and combined subtypes based on their revised Conner's rating scale score. We then analyzed differences in resting state functional connectivity of the cortico-striatal and attentional networks between these subtypes. We found a double dissociation of functional connectivity in the cortico-striatal and ventral attentional networks, reflecting the subtypes of the ADHD participants. Particularly, the hyperactive-impulsive subtype was associated with increased connectivity in cortico-striatal network, whereas the inattentive subtype was associated with increased connectivity in the right ventral attention network. Our study demonstrated for the first time a right lateralized, double dissociation between specific networks associated with hyperactivity-impulsivity and inattentiveness in ADHD children, providing a biological basis for exploring symptom dimensions and revealing potential targets for more personalized treatments.
290-302
Sanefuji, Masafumi
1e5af087-13ff-4222-ba97-ee454bc18f05
Craig, Michael
9af5fe8c-5cf8-438f-af50-6f8b866c78c5
Parlatini, Valeria
6cdfb200-40ce-43ce-84da-dcb6eba0f67a
Metha, Mitul
abb04ffb-97c0-4db4-b035-e3e79632fe9a
Murphy, Declan
8dbc7036-5eb0-48bd-9c5d-313c0253fa01
Catani, Marco
77eb6337-54aa-417a-9cd2-a32fba812448
Cerliani, Leonardo
289b31d8-3b69-4615-bded-dedbdea29de6
Thiebaut de Schotten, Michel
be332c1c-701d-4507-9572-e43f0cde9d38
18 January 2017
Sanefuji, Masafumi
1e5af087-13ff-4222-ba97-ee454bc18f05
Craig, Michael
9af5fe8c-5cf8-438f-af50-6f8b866c78c5
Parlatini, Valeria
6cdfb200-40ce-43ce-84da-dcb6eba0f67a
Metha, Mitul
abb04ffb-97c0-4db4-b035-e3e79632fe9a
Murphy, Declan
8dbc7036-5eb0-48bd-9c5d-313c0253fa01
Catani, Marco
77eb6337-54aa-417a-9cd2-a32fba812448
Cerliani, Leonardo
289b31d8-3b69-4615-bded-dedbdea29de6
Thiebaut de Schotten, Michel
be332c1c-701d-4507-9572-e43f0cde9d38
Sanefuji, Masafumi, Craig, Michael, Parlatini, Valeria, Metha, Mitul, Murphy, Declan, Catani, Marco, Cerliani, Leonardo and Thiebaut de Schotten, Michel
(2017)
Double-dissociation between the mechanism leading to impulsivity and inattention in Attention Deficit Hyperactivity Disorder: a resting-state functional connectivity study.
Cortex, 86, .
(doi:10.1016/j.cortex.2016.06.005).
Abstract
Two core symptoms characterize Attention Deficit Hyperactivity Disorder (ADHD) subtypes: inattentiveness and hyperactivity-impulsivity. While previous brain imaging research investigated ADHD as if it was a homogenous condition, its two core symptoms may originate from different brain mechanisms. We, therefore, hypothesized that the functional connectivity of cortico-striatal and attentional networks would be different between ADHD subtypes. We studied 165 children (mean age 10.93 years; age range, 7-17 year old) diagnosed as having ADHD based on their revised Conner's rating scale score and 170 typical developing individuals (mean age 11.46 years; age range, 7-17 year old) using resting state functional fMRI. Groups were matched for age, IQ and head motion during the MRI acquisition. We fractionated the ADHD group into predominantly inattentive, hyperactive-impulsive and combined subtypes based on their revised Conner's rating scale score. We then analyzed differences in resting state functional connectivity of the cortico-striatal and attentional networks between these subtypes. We found a double dissociation of functional connectivity in the cortico-striatal and ventral attentional networks, reflecting the subtypes of the ADHD participants. Particularly, the hyperactive-impulsive subtype was associated with increased connectivity in cortico-striatal network, whereas the inattentive subtype was associated with increased connectivity in the right ventral attention network. Our study demonstrated for the first time a right lateralized, double dissociation between specific networks associated with hyperactivity-impulsivity and inattentiveness in ADHD children, providing a biological basis for exploring symptom dimensions and revealing potential targets for more personalized treatments.
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Published date: 18 January 2017
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Local EPrints ID: 488902
URI: http://eprints.soton.ac.uk/id/eprint/488902
PURE UUID: 7bcc92d5-ded5-4904-afd3-2dd778d96498
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Date deposited: 09 Apr 2024 16:37
Last modified: 09 Apr 2024 22:05
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Author:
Masafumi Sanefuji
Author:
Michael Craig
Author:
Valeria Parlatini
Author:
Mitul Metha
Author:
Declan Murphy
Author:
Marco Catani
Author:
Leonardo Cerliani
Author:
Michel Thiebaut de Schotten
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