Interdisciplinary approach to analysis of brain mechanisms of learning difficulties: application to the ADHD children study

Abstract

The study presents the interdisciplinary approach to the analysis of the brain mechanisms of learning difficulties in primary schoolchildren. The neuropsychological assessment and the resting-state EEG estimation were applied to analyze the neurophysiological factors of cognitive deficits in children with ADHD symptoms aged 7-8 and 9-10. EEG recordings of children with ADHD symptoms more frequently, as compared to children with typical development, contained EEG patterns of the fronto-thalamic system non-optimal functioning, reflected in frontal theta waves (FTW), right hemisphere local electrical activity (EA) deviations and EEG patterns associated with the general activation deficit arising from the brainstem reticular formation (DA). We specified cognitive impairments associated with different types of resting-state EEG deviations in ADHD children. Children with FTW of both age groups demonstrated pronounced difficulties in programming, regulation and control (executive functions) and verbal performance. Children with right hemisphere local EA abnormalities had executive functions deficit combined with difficulties in nonverbal performance. Children with EEG signs of DA of both age groups had a decreased cognitive processing speed and efficiency. Younger children with DA demonstrated difficulties in nonverbal task performance. Thus, the interdisciplinary study provided the evidence for at least three neurophysiological factors which can specifically impede the cognitive performance in ADHD children.