Biabani, Mana, Walsh, Kevin, Zhou, Shou-Han, Wagner, Joseph, Johnstone, Alexandra, Paterson, Julia, Matthews, Natasha, Johnson, Beth P., Loughnane, Gerard M., O'Connell, Redmond G. and Bellgrove, Mark A.
2025.
Neurophysiology of perceptual decision-making and its alterations in attention-deficit hyperactivity disorder (ADHD).
The Journal of Neuroscience
10.1523/JNEUROSCI.0469-24.2025
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Abstract
Despite the prevalence of ADHD, efforts to develop a detailed understanding of the neuropsychology of this neurodevelopmental condition are complicated by the diversity of interindividual presentations and the inability of current clinical tests to distinguish between its sensory, attentional, arousal or motoric contributions. Identifying objective methods that can explain the diverse performance profiles across individuals diagnosed with ADHD has been a long-held goal. Achieving this could significantly advance our understanding of etiological processes and potentially inform the development of personalized treatment approaches. Here, we examine key neuropsychological components of ADHD within an electrophysiological (EEG) perceptual decision-making paradigm that is capable of isolating distinct neural signals of several key information processing stages necessary for sensory-guided actions from attentional selection to motor responses. Using a perceptual decision-making task (random dot motion), we evaluated the performance of 79 children (aged 8 to 17 years) and found slower and less accurate responses, along with a reduced rate of evidence accumulation (drift rate parameter of drift diffusion model), in children with ADHD (n = 37; 13 female) compared to typically developing peers (n = 42; 18 female). This was driven by the atypical dynamics of discrete electrophysiological signatures of attentional selection, the accumulation of sensory evidence, and strategic adjustments reflecting urgency of response. These findings offer an integrated account of decision-making in ADHD and establish discrete neural signals that might be used to understand the wide range of neuropsychological performance variations in individuals with ADHD. The efficacy of diagnostic and therapeutic pathways in ADHD is limited by our incomplete understanding of its neurological basis. One promising avenue of research is the search for basic neural mechanisms that may contribute to the variety of cognitive challenges associated with ADHD. We developed a mechanistic account of differences in a fundamental cognitive process by integrating across neurocognitive, neurophysiological (i.e., EEG), and computational levels of analysis. We detected distinct neural changes in ADHD that explained altered performance (e.g., slowed and less accurate responses). These included changes in neural patterns of attentional selection, sensory information processing, and response preparation. These findings enhance our understanding of the neurophysiological profile of ADHD and may offer potential targets for more effective, personalized interventions. [Abstract copyright: Copyright © 2025 the authors.]
| Item Type: | Article |
|---|---|
| Date Type: | Published Online |
| Status: | In Press |
| Schools: | Schools > Engineering |
| Publisher: | Society for Neuroscience |
| ISSN: | 0270-6474 |
| Date of First Compliant Deposit: | 12 March 2025 |
| Date of Acceptance: | 22 January 2025 |
| Last Modified: | 12 Mar 2025 15:00 |
| URI: | https://orca.cardiff.ac.uk/id/eprint/176512 |
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