Motor learning in developmental coordination disorder: behavioral and neuroimaging study

Emad Al-Yahya, Patrick Esser, Benjamin D. Weedon, Shawn Joshi, Yan Ci Liu, Daniella N. Springett, Piergiorgio Salvan, Andy Meaney, Johnny Collett, Mario Inacio, Anne Delextrat, Steve Kemp, Tomas Ward, Hooshang Izadi, Heidi Johansen-Berg, Hasan Ayaz, Helen Dawes

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2 Citations (SciVal)

Abstract

Developmental coordination disorder (DCD) is characterized by motor learning deficits that are poorly understood within whole-body activities context. Here we present results of one of the largest non-randomized interventional trials combining brain imaging and motion capture techniques to examine motor skill acquisition and its underpinning mechanisms in adolescents with and without DCD. A total of 86 adolescents with low fitness levels (including 48 with DCD) were trained on a novel stepping task for a duration of 7 weeks. Motor performance during the stepping task was assessed under single and dual-task conditions. Concurrent cortical activation in the prefrontal cortex (PFC) was measured using functional near-infrared spectroscopy (fNIRS). Additionally, structural and functional magnetic resonance imaging (MRI) was conducted during a similar stepping task at the beginning of the trial. The results indicate that adolescents with DCD performed similarly to their peers with lower levels of fitness in the novel stepping task and demonstrated the ability to learn and improve motor performance. Both groups showed significant improvements in both tasks and under single- and dual-task conditions at post-intervention and follow-up compared to baseline. While both groups initially made more errors in the Stroop task under dual-task conditions, at follow-up, a significant difference between single- and dual-task conditions was observed only in the DCD group. Notably, differences in prefrontal activation patterns between the groups emerged at different time points and task conditions. Adolescents with DCD exhibited distinct prefrontal activation responses during the learning and performance of a motor task, particularly when complexity was increased by concurrent cognitive tasks. Furthermore, a relationship was observed between MRI brain structure and function measures and initial performance in the novel stepping task. Overall, these findings suggest that strategies that address task and environmental complexities, while simultaneously enhancing brain activity through a range of tasks, offer opportunities to increase the participation of adolescents with low fitness in physical activity and sports.

Original languageEnglish
Article number1187790
Number of pages14
JournalFrontiers in Neuroscience
Volume17
DOIs
Publication statusPublished - 22 Jun 2023

Bibliographical note

Funding Information:
This study was jointly funded by Action Medical Research for Children (GN2445) and Chartered Society of Physiotherapy Charitable Trust (GN2445). HD was funded by Exeter NIHR, BRC. TW was funded by Science Foundation Ireland (Grant No. SFI/12/RC/2289_P2). SJ was supported by the Fulbright US-UK Fellowship and the Eunice Kennedy Shriver National Institute of Child Health and Human Development of the National Institutes of Health (award number F30HD103527)

Keywords

  • developmental coordination disorder
  • fNIRS
  • frontoparietal networks
  • motor control
  • MRI
  • prefrontal cortex

ASJC Scopus subject areas

  • General Neuroscience

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