Artículos de revistas
Permutation Entropy Applied to the Characterization of the Clinical Evolution of Epileptic Patients under Pharmacological Treatment
Fecha
2014-10Registro en:
Mateos, Diego Martín; Juan Manuel Díaz; Lamberti, Pedro Walter; Permutation Entropy Applied to the Characterization of the Clinical Evolution of Epileptic Patients under Pharmacological Treatment; Molecular Diversity Preservation International; Entropy; 16; 11; 10-2014; 5668-5676
1099-4300
CONICET Digital
CONICET
Autor
Mateos, Diego Martín
Juan Manuel Díaz
Lamberti, Pedro Walter
Resumen
Different techniques originated in information theory and tools from nonlinear systems theory have been applied to the analysis of electro-physiological time series. Several clinically relevant results have emerged from the use of concepts, such as entropy, chaos and complexity, in analyzing electrocardiograms and electroencephalographic (EEG) records. In this work, we develop a method based on permutation entropy (PE) to characterize EEG records from different stages in the treatment of a chronic epileptic patient. Our results show that the PE is useful for clearly quantifying the evolution of the patient along a certain lapse of time and allows visualizing in a very convenient way the effects of the pharmacotherapy.