Abstract
Deficits in verbal working memory (VWM) observed in attention deficit hyperactivity disorder (ADHD)children can persist into adulthood. Although previous studies have identified brain regions that are activated during VWM tasks, the neural mechanisms underlying the relationship between VWM deficits remain unclear. The objective of this study was to investigate the structural covariance network connectivity and brain morphology changes that are associated with VWM performance in ADHD children. For this study, we selected 26 ADHD children and 26 healthy control (HC) participants. Participants were instructed to perform a n-back VWM task and their accuracy and response times were subsequently recorded. This research utilized voxel-based morphometry to measure the grey matter (GM) volume, and conducted structural covariance connectivity network analysis to explore the changes of brain in ADHD. Voxel-based morphometry analysis showed that lower GM volume in the right cerebellum lobule VI and the left parahippocampal gryus in ADHD children. Moreover, a positive correlation was found between the GM volume in the right cerebellum lobule VI and the accuracy of 2-back VWM task with verbal, small reward, and delayed feedback (VSD). Structural covariance network analysis found decreased structural connectivity between right cerebellum lobule VI and right precentral gyrus, right postcentral gyrus, left paracentral lobule, right superior parietal gyrus, left hippocampus in ADHD children. The low GM volume and altered structural covariance connectivity in the right cerebellum lobule VI might potentially affect VWM performance in ADHD children. The innovation of this study lies in its more focused discussion on the morphological characteristics and structural covariance connectivity of verbal working memory deficits in ADHD children, and the innovative finding of a positive correlation between gray matter volume in the right cerebellum lobule VI and accuracy in completing the 2-back VWM task with verbal instructions, small reward, and delayed feedback(VSD). This expands upon previous research by elucidating the specific brain structures involved in verbal working memory deficits in ADHD children and highlights the potential importance of the cerebellum in this cognitive process. Overall, these innovative findings advance our understanding of the neural basis of ADHD and may have important implications for the development of targeted interventions for verbal working memory deficits.
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