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Analysis and improvement of a human ventricular cell model for investigation of cardiac arrhythmias
Conference ObjectAbstract: The use of experiments for studying cardiac arrhythmias, the effect of drugs, or pathologies on cardPalabras claves:Autores:Carro J., Esther Pueyo, Pablo Laguna, Rodriguez-Matas J.F.Fuentes:scopusAnalysis of vulnerability to reentry in acute myocardial ischemia using a realistic human heart model
ArticleAbstract: Electrophysiological alterations of the myocardium caused by acute ischemia constitute a pro-arrhythPalabras claves:Acute myocardial ischemia, Computational modeling, His-purkinje system, Ventricular arrhythmias, Vulnerability to reentryAutores:Edison F. Carpio, Ferrrero J.M., Gomez J.F., Rodriguez-Matas J.F., Trenor B.Fuentes:googlescopusA human ventricular cell model for investigation of cardiac arrhythmias under hyperkalaemic conditions
ArticleAbstract: In this study, several modifications were introduced to a recently proposed human ventricular actionPalabras claves:Cardiac Arrhythmias, electrophysiology, Human ventricular cell model, HyperkalaemiaAutores:Carro J., Esther Pueyo, Pablo Laguna, Rodriguez-Matas J.F.Fuentes:scopusA response surface optimization approach to adjust ionic current conductances of cardiac electrophysiological models. Application to the study of potassium level changes
ArticleAbstract: Cardiac electrophysiological computational models are often developed from previously published modePalabras claves:Autores:Carro J., Esther Pueyo, Rodriguez-Matas J.F.Fuentes:scopusCorrigendum to “Interactive effect of beta-adrenergic stimulation and mechanical stretch on low-frequency oscillations of ventricular action potential duration in humans” [J. Mol. Cell. Cardiol. 97 (2016) 93–105] (S0022282816301146) (10.1016/j.yjmcc.2016.05.003))
OtherAbstract: The authors regret Missing ERC funding in the Acknowledgments. Acknowledgments should read as followPalabras claves:Autores:Esther Pueyo, Orini M., Rodriguez-Matas J.F., Taggart P.Fuentes:scopusCardiac cells stimulated with an axial current-like waveform reproduce electrophysiological properties of tissue fibers
ArticleAbstract: Background and objective: In silico electrophysiological models are generally validated by comparingPalabras claves:Cardiac electrophysiological models, multi-scale simulations, stimulus currentAutores:Carro J., Esther Pueyo, Monasterio V., Rodriguez-Matas J.F.Fuentes:scopusEvaluation of a method for quantification of restitution dispersion from the surface ECG
Conference ObjectAbstract: Spatial dispersion of action potential duration (APD) restitution (APDR) due to electrophysiologicalPalabras claves:Autores:Doblare M., Esther Pueyo, Minchole A., Pablo Laguna, Rodriguez-Matas J.F., Zacur E.Fuentes:scopusInfluence of the Stimulation Current on the Differences between Cell and Tissue Electrophysiological Simulations
Conference ObjectAbstract: This study compares stimulation waveforms for single-cell simulations. The alternatives include monoPalabras claves:Autores:Carro J., Esther Pueyo, Monasterio V., Rodriguez-Matas J.F.Fuentes:scopusInteractive effect of beta-adrenergic stimulation and mechanical stretch on low-frequency oscillations of ventricular action potential duration in humans
ArticleAbstract: Ventricular repolarization dynamics are crucial to arrhythmogenesis. Low-frequency oscillations of rPalabras claves:arrhythmogenesis, Beta-Adrenergic stimulation, Calcium overload, Computer modeling, Mechanical stretch, Ventricular repolarization oscillationsAutores:Esther Pueyo, Orini M., Rodriguez-Matas J.F., Taggart P.Fuentes:scopusQuantification of restitution dispersion from the dynamic changes of the T-wave peak to end, measured at the surface ECG
ArticleAbstract: Action potential duration restitution (APDR) curves present spatial variations due to the electrophyPalabras claves:Rate adaptation, repolarization dispersion, restitution dispersion, T-wave peak to T-wave endAutores:Doblare M., Esther Pueyo, Minchole A., Pablo Laguna, Rodriguez-Matas J.F., Zacur E.Fuentes:scopus