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Approximate Entropy of Brain Network in the Study of Hemispheric Differences

Francesca Alù, Francesca Miraglia, Alessandro Orticoni, Elda Judica, Maria Cotelli, Paolo Maria Rossini, Fabrizio Vecchio

2020Entropy35 citationsDOIOpen Access PDF

Abstract

Human brain, a dynamic complex system, can be studied with different approaches, including linear and nonlinear ones. One of the nonlinear approaches widely used in electroencephalographic (EEG) analyses is the entropy, the measurement of disorder in a system. The present study investigates brain networks applying approximate entropy (ApEn) measure for assessing the hemispheric EEG differences; reproducibility and stability of ApEn data across separate recording sessions were evaluated. Twenty healthy adult volunteers were submitted to eyes-closed resting EEG recordings, for 80 recordings. Significant differences in the occipital region, with higher values of entropy in the left hemisphere than in the right one, show that the hemispheres become active with different intensities according to the performed function. Besides, the present methodology proved to be reproducible and stable, when carried out on relatively brief EEG epochs but also at a 1-week distance in a group of 36 subjects. Nonlinear approaches represent an interesting probe to study the dynamics of brain networks. ApEn technique might provide more insight into the pathophysiological processes underlying age-related brain disconnection as well as for monitoring the impact of pharmacological and rehabilitation treatments.

Topics & Concepts

Approximate entropyElectroencephalographySample entropyEntropy (arrow of time)DisconnectionNonlinear systemLateralization of brain functionNeuroscienceBrain activity and meditationPattern recognition (psychology)Computer scienceArtificial intelligenceBrain functionPsychologyAudiologyMedicinePhysicsPolitical scienceQuantum mechanicsLawNeural dynamics and brain functionFunctional Brain Connectivity StudiesEEG and Brain-Computer Interfaces