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Oculomotor function in children and adolescents with autism, ADHD or co-occurring autism and ADHD

Oculomotor function in children and adolescents with autism, ADHD or co-occurring autism and ADHD
Oculomotor function in children and adolescents with autism, ADHD or co-occurring autism and ADHD
Oculomotor characteristics, including accuracy, timing, and sensorimotor processing, are considered sensitive intermediate phenotypes for understanding the etiology of neurodevelopmental conditions, such as autism and ADHD. Oculomotor characteristics have predominantly been studied separately in autism and ADHD. Despite the high rates of co-occurrence between these conditions, only one study has investigated oculomotor processes among those with co-occurring autism + ADHD. Four hundred and five (n = 405; 226 males) Australian children and adolescents aged 4 to 18 years (M = 9.64 years; SD = 3.20 years) with ADHD (n = 64), autism (n = 66), autism + ADHD (n = 146), or neurotypical individuals (n = 129) were compared across four different oculomotor tasks: visually guided saccade, anti-saccade, sinusoidal pursuit and step-ramp pursuit. Confirmatory analyses were conducted using separate datasets acquired from the University of Nottingham UK (n = 17 autism, n = 22 ADHD, n = 32 autism + ADHD, n = 30 neurotypical) and University of Kansas USA (n = 29 autism, n = 41 neurotypical). Linear mixed effect models controlling for sex, age and family revealed that children and adolescents with autism + ADHD exhibited increased variability in the accuracy of the final saccadic eye position compared to neurotypical children and adolescents. Autistic children and adolescents demonstrated a greater number of catch-up saccades during step-ramp pursuit compared to neurotypical children and adolescents. These findings suggest that select differences in saccadic precision are unique to autistic individuals with co-occurring ADHD, indicating that measuring basic sensorimotor processes may be useful for parsing neurodevelopment and clinical heterogeneity in autism.
ADHD, Autism, Endophenotype, Neurodevelopment, Oculomotor Control
0162-3257
Forbes, Elana J.
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Tiego, Jeggan
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Langmead, Joshua
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Unruh, Kathryn E.
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Mosconi, Matthew W.
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Finlay, Amy
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Kallady, Kathryn
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Maclachlan, Lydia
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Moses, Mia
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Cappel, Kai
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Knott, Rachael
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Chau, Tracey
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Sindhu, Vishnu priya mohanakumar
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Bellato, Alessio
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Groom, Madeleine J.
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Kerestes, Rebecca
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Bellgrove, Mark A.
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Johnson, Beth P.
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Forbes, Elana J.
c1e09985-4b97-4eea-818d-5d16ebbc9114
Tiego, Jeggan
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Langmead, Joshua
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Unruh, Kathryn E.
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Mosconi, Matthew W.
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Finlay, Amy
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Kallady, Kathryn
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Maclachlan, Lydia
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Moses, Mia
fb138252-e9e5-4c76-8246-ce63e69ec01f
Cappel, Kai
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Knott, Rachael
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Chau, Tracey
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Sindhu, Vishnu priya mohanakumar
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Bellato, Alessio
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Groom, Madeleine J.
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Kerestes, Rebecca
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Bellgrove, Mark A.
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Johnson, Beth P.
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Forbes, Elana J., Tiego, Jeggan, Langmead, Joshua, Unruh, Kathryn E., Mosconi, Matthew W., Finlay, Amy, Kallady, Kathryn, Maclachlan, Lydia, Moses, Mia, Cappel, Kai, Knott, Rachael, Chau, Tracey, Sindhu, Vishnu priya mohanakumar, Bellato, Alessio, Groom, Madeleine J., Kerestes, Rebecca, Bellgrove, Mark A. and Johnson, Beth P. (2025) Oculomotor function in children and adolescents with autism, ADHD or co-occurring autism and ADHD. Journal of Autism and Developmental Disorders. (doi:10.1007/s10803-024-06718-3).

Record type: Article

Abstract

Oculomotor characteristics, including accuracy, timing, and sensorimotor processing, are considered sensitive intermediate phenotypes for understanding the etiology of neurodevelopmental conditions, such as autism and ADHD. Oculomotor characteristics have predominantly been studied separately in autism and ADHD. Despite the high rates of co-occurrence between these conditions, only one study has investigated oculomotor processes among those with co-occurring autism + ADHD. Four hundred and five (n = 405; 226 males) Australian children and adolescents aged 4 to 18 years (M = 9.64 years; SD = 3.20 years) with ADHD (n = 64), autism (n = 66), autism + ADHD (n = 146), or neurotypical individuals (n = 129) were compared across four different oculomotor tasks: visually guided saccade, anti-saccade, sinusoidal pursuit and step-ramp pursuit. Confirmatory analyses were conducted using separate datasets acquired from the University of Nottingham UK (n = 17 autism, n = 22 ADHD, n = 32 autism + ADHD, n = 30 neurotypical) and University of Kansas USA (n = 29 autism, n = 41 neurotypical). Linear mixed effect models controlling for sex, age and family revealed that children and adolescents with autism + ADHD exhibited increased variability in the accuracy of the final saccadic eye position compared to neurotypical children and adolescents. Autistic children and adolescents demonstrated a greater number of catch-up saccades during step-ramp pursuit compared to neurotypical children and adolescents. These findings suggest that select differences in saccadic precision are unique to autistic individuals with co-occurring ADHD, indicating that measuring basic sensorimotor processes may be useful for parsing neurodevelopment and clinical heterogeneity in autism.

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s10803-024-06718-3 - Version of Record
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Accepted/In Press date: 29 December 2024
Published date: 24 January 2025
Keywords: ADHD, Autism, Endophenotype, Neurodevelopment, Oculomotor Control
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Identifiers

Local EPrints ID: 498471
URI: http://eprints.soton.ac.uk/id/eprint/498471
DOI: doi:10.1007/s10803-024-06718-3
ISSN: 0162-3257
PURE UUID: 331314c3-6d53-4f94-aebd-136bc5a840a0
ORCID for Alessio Bellato: ORCID iD orcid.org/0000-0001-5330-6773

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Date deposited: 19 Feb 2025 17:58
Last modified: 14 May 2025 02:11

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Contributors

Author: Elana J. Forbes
Author: Jeggan Tiego
Author: Joshua Langmead
Author: Kathryn E. Unruh
Author: Matthew W. Mosconi
Author: Amy Finlay
Author: Kathryn Kallady
Author: Lydia Maclachlan
Author: Mia Moses
Author: Kai Cappel
Author: Rachael Knott
Author: Tracey Chau
Author: Vishnu priya mohanakumar Sindhu
Author: Alessio Bellato ORCID iD
Author: Madeleine J. Groom
Author: Rebecca Kerestes
Author: Mark A. Bellgrove
Author: Beth P. Johnson

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