Brain criticality through nonadditive entropic analysis of electroencephalograms

Abstract

On the grounds of nonadditive entropies -- appropriate for complex systems -- we investigate the electroencephalogram amplitudes of typical and ADHD children. The corresponding probability distributions are q-Gaussians, i.e., (x) eq-β x2 [1+(q-1) β x2]1/(1-q), where (q,β) are, respectively, the entropic index characterizing complexity and the inverse width. We show that q tends to monotonically vary with β for both typical and ADHD subjects, thus revealing critical behavior of the brain. Moreover, we verify that ADHD subjects have a higher complexity than the typical ones. Consistently, biomarkers for objective phychyatric diagnosis could emerge along this path. We show that q tends to monotonically vary with β for both typical and ADHD subjects, thus revealing critical behavior of the brain. Moreover, we verify that ADHD subjects have a higher complexity than the typical ones. Consistently, biomarkers for objective phychyatric diagnosis could emerge along this path.