Transdiagnostic subtyping of males with developmental disorders using cortical characteristics
Transdiagnostic subtyping of males with developmental disorders using cortical characteristics
Background: autism spectrum disorder (ASD) and attention-deficit/hyperactivity disorder (ADHD) are biologically heterogeneous and often co-occur. As within-diagnosis heterogeneity and overlapping diagnoses are challenging for researchers and clinicians, identifying biologically homogenous subgroups, independent of diagnosis, is an urgent need.
Methods: MRI data from 148 adult males with developmental disorders (99 primary ASD;mean age = 31.7±8.0, 49 primary ADHD; mean age = 31.7±9.6) and 105 neurotypical controls (NTC; mean age = 30.6±6.8) were analyzed. We extracted mean cortical thickness (CT) and surface area (SA) values using a functional atlas. Then, we conducted HeterogeneitY through DiscRiminant Analysis (HYDRA) to transdiagnostically cluster and classify individuals. Differences in diagnostic likelihood and clinical symptoms between subtypes were tested. Sensitivity analyses tested the stability of the number of subtypes and their membership by excluding 13 participants diagnosed with both ASD and ADHD and by using a different atlas.
Results: in relation to both CT and SA, HYDRA identified two subtypes. The likelihood of ASD or ADHD was not significantly different from the chance of belonging to any of these two subtypes. Clinical characteristics did not differ between subtypes in either CT or SA based analyses. The high consistency in membership was replicated when utilizing a different atlas or excluding people with dual diagnoses in CT (dice coefficients > 0.94) and in SA (>0.88).
Conclusion: although the brain-derived subtypes do not match diagnostic groups, individuals with developmental disorders were successfully and stably subtyped using either CT or SA.
Attention-deficit/hyperactivity disorder, Autism spectrum disorder, Cortical thickness, HYDRA, Subtype
102288
Itahashi, Takashi
63261f90-3426-46cd-ac54-db65ed42a522
Fujino, Junya
b78637fb-3eb3-43c0-9d9b-63ed1d8360ce
Hashimoto, Ryu-ichiro
4345580c-6508-469c-99bf-f3dc5e2b0b8f
Tachibana, Yoshiyuki
f570269a-a5e7-4613-a55c-e18b753b135e
Satu, Taku
562e5216-389d-4659-93e7-18acd6aef232
Ohta, Haruhisa
4b9b7c98-99bc-4a27-9bef-b5af322df6fb
Nakamura, Motoaki
bb797189-87bd-44f8-a37a-4ae937bca339
Kato, Nobumasa
7c867e6a-cc7f-4b86-b514-8dcf91433a45
Eickhoff, Simon
15bd63c5-a47b-4460-a351-a73814f3420a
Cortese, Samuele
53d4bf2c-4e0e-4c77-9385-218350560fdb
Aoki, Yuta
806ea614-51b3-4018-b68b-d12b7f1487c1
2020
Itahashi, Takashi
63261f90-3426-46cd-ac54-db65ed42a522
Fujino, Junya
b78637fb-3eb3-43c0-9d9b-63ed1d8360ce
Hashimoto, Ryu-ichiro
4345580c-6508-469c-99bf-f3dc5e2b0b8f
Tachibana, Yoshiyuki
f570269a-a5e7-4613-a55c-e18b753b135e
Satu, Taku
562e5216-389d-4659-93e7-18acd6aef232
Ohta, Haruhisa
4b9b7c98-99bc-4a27-9bef-b5af322df6fb
Nakamura, Motoaki
bb797189-87bd-44f8-a37a-4ae937bca339
Kato, Nobumasa
7c867e6a-cc7f-4b86-b514-8dcf91433a45
Eickhoff, Simon
15bd63c5-a47b-4460-a351-a73814f3420a
Cortese, Samuele
53d4bf2c-4e0e-4c77-9385-218350560fdb
Aoki, Yuta
806ea614-51b3-4018-b68b-d12b7f1487c1
Itahashi, Takashi, Fujino, Junya, Hashimoto, Ryu-ichiro, Tachibana, Yoshiyuki, Satu, Taku, Ohta, Haruhisa, Nakamura, Motoaki, Kato, Nobumasa, Eickhoff, Simon, Cortese, Samuele and Aoki, Yuta
(2020)
Transdiagnostic subtyping of males with developmental disorders using cortical characteristics.
NeuroImage: Clinical, 27, , [102288].
(doi:10.1016/j.nicl.2020.102288).
Abstract
Background: autism spectrum disorder (ASD) and attention-deficit/hyperactivity disorder (ADHD) are biologically heterogeneous and often co-occur. As within-diagnosis heterogeneity and overlapping diagnoses are challenging for researchers and clinicians, identifying biologically homogenous subgroups, independent of diagnosis, is an urgent need.
Methods: MRI data from 148 adult males with developmental disorders (99 primary ASD;mean age = 31.7±8.0, 49 primary ADHD; mean age = 31.7±9.6) and 105 neurotypical controls (NTC; mean age = 30.6±6.8) were analyzed. We extracted mean cortical thickness (CT) and surface area (SA) values using a functional atlas. Then, we conducted HeterogeneitY through DiscRiminant Analysis (HYDRA) to transdiagnostically cluster and classify individuals. Differences in diagnostic likelihood and clinical symptoms between subtypes were tested. Sensitivity analyses tested the stability of the number of subtypes and their membership by excluding 13 participants diagnosed with both ASD and ADHD and by using a different atlas.
Results: in relation to both CT and SA, HYDRA identified two subtypes. The likelihood of ASD or ADHD was not significantly different from the chance of belonging to any of these two subtypes. Clinical characteristics did not differ between subtypes in either CT or SA based analyses. The high consistency in membership was replicated when utilizing a different atlas or excluding people with dual diagnoses in CT (dice coefficients > 0.94) and in SA (>0.88).
Conclusion: although the brain-derived subtypes do not match diagnostic groups, individuals with developmental disorders were successfully and stably subtyped using either CT or SA.
Text
NICL-19-1245_R1_manuscript
- Accepted Manuscript
Text
1-s2.0-S221315822030125X-main
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Accepted/In Press date: 4 May 2020
e-pub ahead of print date: 26 May 2020
Published date: 2020
Additional Information:
Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.
Keywords:
Attention-deficit/hyperactivity disorder, Autism spectrum disorder, Cortical thickness, HYDRA, Subtype
Identifiers
Local EPrints ID: 440649
URI: http://eprints.soton.ac.uk/id/eprint/440649
ISSN: 2213-1582
PURE UUID: 0f5d46e7-edfa-4acc-8708-22056767e8e6
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Date deposited: 13 May 2020 16:31
Last modified: 17 Mar 2024 03:37
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Contributors
Author:
Takashi Itahashi
Author:
Junya Fujino
Author:
Ryu-ichiro Hashimoto
Author:
Yoshiyuki Tachibana
Author:
Taku Satu
Author:
Haruhisa Ohta
Author:
Motoaki Nakamura
Author:
Nobumasa Kato
Author:
Simon Eickhoff
Author:
Yuta Aoki
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