DOI: 10.1002/hbm.26462 ISSN:

Adolescents with ADHD and co‐occurring motor difficulties show a distinct pattern of maturation within the corticospinal tract from those without: A longitudinal fixel‐based study

Christian Hyde, Ian Fuelscher, Daryl Efron, Vicki A. Anderson, Tim J. Silk
  • Neurology (clinical)
  • Neurology
  • Radiology, Nuclear Medicine and imaging
  • Radiological and Ultrasound Technology
  • Anatomy

Abstract

It is well documented that attention‐deficit hyperactivity disorder (ADHD) often presents with co‐occurring motor difficulties. However, little is known about the biological mechanisms that explain compromised motor skills in approximately half of those with ADHD. To provide insight into the neurobiological basis of poor motor outcomes in ADHD, this study profiled the development of white matter organization within the cortico‐spinal tract (CST) in adolescents with ADHD with and without co‐occurring motor problems, as well as non‐ADHD control children with and without motor problems. Participants were 60 children aged 9–14 years, 27 with a history of ADHD and 33 controls. All underwent high‐angular resolution diffusion MRI data at up to three time points (115 in scans total). We screened for motor impairment in all participants at the third time point (≈14 years) using the Developmental Coordination Disorder Questionnaire (DCD‐Q). Following pre‐processing of diffusion MRI scans, fixel‐based analysis was performed, and the bilateral CST was delineated using TractSeg. Mean fiber density (FD) and fiber cross‐section (FC) were extracted for each tract at each time‐point. To investigate longitudinal trajectories of fiber development, linear mixed models were performed separately for the left and right CST, controlling for nuisance variables. To examine possible variations in fiber development between groups, we tested whether the inclusion of group and the interaction between age and group improved model fit. At ≈10 years, those with ADHD presented with lower FD within the bilateral CST relative to controls, irrespective of their prospective motor status. While these microstructural abnormalities persisted into adolescence for individuals with ADHD and co‐occurring motor problems, they resolved for those with ADHD alone. Divergent maturational pathways of motor networks (i.e., the CST) may, at least partly, explain motor problems individuals with ADHD.

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