Renewal Theory as a Universal Quantitative Framework to Characterize Phase Singularity Regeneration in Mammalian Cardiac Fibrillation
Dharmaprani D, Schopp M, Kuklik P, Chapman D, Lahiri A, Dykes L, Xiong F, Aguilar M, Strauss B, Mitchell L, Pope K, Meyer C, Willems S, Akar FG, Nattel S, McGavigan AD, Ganesan AN. Renewal Theory as a Universal Quantitative Framework to Characterize Phase Singularity Regeneration in Mammalian Cardiac Fibrillation. Circulation Arrhythmia And Electrophysiology 2019, 12: e007569. PMID: 31813270, DOI: 10.1161/circep.119.007569.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAnimalsAtrial FibrillationBiological EvolutionComputer SimulationDisease Models, AnimalHeart Conduction SystemHeart RateHumansModels, CardiovascularMulticenter Studies as TopicObservational Studies as TopicRatsReproducibility of ResultsSheep, DomesticStochastic ProcessesTime FactorsVentricular FibrillationConceptsPoisson renewal processRenewal theoryRenewal processPhase singularityMaximum entropy theoryExponential probability distribution functionProbability distribution functionFormation/destructionConstant rate parametersEntropy theoryInterevent timesDistribution functionExponential distributionRotational events