neurodevelopmental research pointed strongly to structural variations in subcortical regions of the brain in ADHD, which underwent cross-sectional analysis in the current study.
The investigators analyzed data collected from a total of 1713 children and adults with ADHD and 1529 non-ADHD controls, ranging in age from 4 to 63 years (median age = 14 years), from 23 separate cohorts. Significant differences in volume of multiple subcortical regions were apparent (measured by Cohen’s d effect = -.15) in the amygdala, caudate, hippocampus, and putamen (d =-.19, -.11, -.11, and -.14, respectively) while intracranial volume was reduced by .10. No differences in volume were seen in the palladium (P =.95) or thalamus (P =.39) in either group.
Age appeared to play a significant role, as differences in regional brain volume were significantly more pronounced in childhood and largely “non-existent” in adults, the investigators reported. Effect sizes in case-control analyses for differences in accumbens, amygdala, caudate, hippocampus, and intracranial volume were greater in children younger than age 15 with ADHD compared with other age groups and also greater in the hippocampus in adolescents (age 15 to 21) with ADHD compared with age-matched controls.