Frontiers in Neurology (Mar 2022)

Cerebellar and Prefrontal Structures Associated With Executive Functioning in Pediatric Patients With Congenital Heart Defects

  • Daryaneh Badaly,
  • Sue R. Beers,
  • Rafael Ceschin,
  • Rafael Ceschin,
  • Vincent K. Lee,
  • Vincent K. Lee,
  • Shahida Sulaiman,
  • Alexandria Zahner,
  • Julia Wallace,
  • Aurélia Berdaa-Sahel,
  • Cheryl Burns,
  • Cecilia W. Lo,
  • Ashok Panigrahy,
  • Ashok Panigrahy

DOI
https://doi.org/10.3389/fneur.2022.827780
Journal volume & issue
Vol. 13

Abstract

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ObjectiveChildren, adolescents, and young adults with congenital heart defects (CHD) often display executive dysfunction. We consider the prefrontal and cerebellar brain structures as mechanisms for executive dysfunction among those with CHD.Methods55 participants with CHD (M age = 13.93) and 95 healthy controls (M age = 13.13) completed magnetic resonance imaging (MRI) of the brain, from which we extracted volumetric data on prefrontal and cerebellar regions. Participants also completed neuropsychological tests of executive functioning; their parents completed ratings of their executive functions.ResultsCompared to healthy controls, those with CHD had smaller cerebellums and lateral, medial, and orbital prefrontal regions, they performed more poorly on tests of working memory, inhibitory control, and mental flexibility, and their parents rated them as having poorer executive functions across several indices. Across both groups, there were significant correlations for cerebellar and/or prefrontal volumes with cognitive assessments of working memory, mental flexibility, and inhibitory control and with parent-completed ratings of task initiation, working memory, and planning/organization. Greater prefrontal volumes were associated with better working memory, among those with larger cerebellums (with group differences based on the measure and the prefrontal region). Greater prefrontal volumes were related to better emotional regulation only among participants with CHD with smaller cerebellar volumes, and with poorer inhibition and emotional regulation only among healthy controls with larger cerebellar volumes.ConclusionThe cerebellum not only contributes to executive functioning among young individuals with CHD but may also modulate the relationships between prefrontal regions and executive functioning differently for pediatric patients with CHD vs. health controls.

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