Event-related brain potentials, bilateral electrodermal activity and Mangina-Test performance in learning disabled/ADHD pre-adolescents with severe behavioral disorders as compared to age-matched normal controls.

The most frequently encountered developmental problems of learning disabilities/ADHD often co-exist with severe behavioral disorders. As a direct consequence, this condition opens the way to delinquency, school drop-out, depression, suicide, substance abuse, work absenteeism, and other psycho-social complications. In this paper, we are presenting a selective overview of our previous research and its clinical applications in this field as it relates to our present research data pertaining to the effects of our original Memory Workload Paradigm on the event-related brain potentials in differentiating normal and pathological pre-adolescents (learning disabled/ADHD with concomitant severe behavioral disorders such as oppositional and conduct). In addition, it provides data on the bilateral electrodermal activity during cognitive workload and Mangina-Test performance of pathological and normal pre-adolescents conducted in separate sessions. The results of our present research indicate that a significant memory load effect for the P450 latency (F(3,27)=4.98, P<0.01) and the P450 amplitude (F(3,27)=3.57, P<0.05) was present for normal pre-adolescents which was absent in pathological pre-adolescents. Moreover, enhanced N450 ERP amplitudes to our Memory Workload Paradigm in pre-frontal and frontal regions clearly differentiated normal from pathological pre-adolescents (F(1, 18)=12.21, P<0.004). Furthermore, significant differences between normal and pathological groups were found in bilateral electrodermal activity (F(1,18)=23.86, P<0.001) and on the Mangina-Test performance (F(1,18)=75.35, P<0.001). Our present research findings provide an original and valuable demonstration of an integrative and effective clinical psychophysiological application of central (ERPs), autonomic (bilateral electrodermal activity) and neuro-psychometric aspects (Mangina-Test) which characterize normal and pathological pre-adolescents and underpin the neurophysiological basis of learning disabled/ADHD with severe behavioral disorders as opposed to normal subjects.