2021
Right predominant electrical remodeling in a pure model of pulmonary hypertension promotes reentrant arrhythmias
Strauss B, Bisserier M, Obus E, Katz MG, Fargnoli A, Cacheux M, Akar JG, Hummel JP, Hadri L, Sassi Y, Akar FG. Right predominant electrical remodeling in a pure model of pulmonary hypertension promotes reentrant arrhythmias. Heart Rhythm 2021, 19: 113-124. PMID: 34563688, PMCID: PMC8742785, DOI: 10.1016/j.hrthm.2021.09.021.Peer-Reviewed Original ResearchConceptsPulmonary arterial hypertensionVT/VFExtrapulmonary toxicityPN ratsVentricular tachycardia/fibrillationCardiac magnetic resonance imagingRight ventricular hypertrophySprague-Dawley ratsMultiple reentrant circuitsConnexin 43 expressionMagnetic resonance imagingConnexin 43 phosphorylationRV activationArterial hypertensionMonocrotaline modelVentricular hypertrophyLeft pneumonectomyElectrical remodelingMyocardial fibrosisConduction slowingSevere formAP durationArrhythmic vulnerabilityReentrant circuitAP alternans
2002
The Electrophysiological Substrate for Reentry: Unique Insights from High-Resolution Optical Mapping with Voltage-Sensitive Dyes
Rosenbaum D, Akar F. The Electrophysiological Substrate for Reentry: Unique Insights from High-Resolution Optical Mapping with Voltage-Sensitive Dyes. 2002, 568-595. DOI: 10.1201/b14064-18.Peer-Reviewed Original ResearchMajor public health problemReentrant arrhythmiasSudden cardiac deathPublic health problemNormal cardiac rhythmHemodynamic deteriorationCardiac deathVentricular arrhythmiasConduction disturbancesLethal arrhythmiasVoltage-sensitive dyeCardiac rhythmElectrophysiological substrateReentrant circuitMaintenance of reentryArrhythmiasElectrical defibrillationHealth problemsArrhythmia mechanismsMyocardial excitabilityFocal arrhythmiasIntact heartCardiac impulseResolution optical mappingReentrant excitationUnique Topographical Distribution of M Cells Underlies Reentrant Mechanism of Torsade de Pointes in the Long-QT Syndrome
Akar FG, Yan GX, Antzelevitch C, Rosenbaum DS. Unique Topographical Distribution of M Cells Underlies Reentrant Mechanism of Torsade de Pointes in the Long-QT Syndrome. Circulation 2002, 105: 1247-1253. PMID: 11889021, DOI: 10.1161/hc1002.105231.Peer-Reviewed Original ResearchConceptsLong QT syndromeSpecific ion channel mutationsCongenital long QT syndromeM cellsQT interval prolongationIon channel mutationsInterval prolongationReentrant mechanismTdP arrhythmiasConduction blockCanine wedge preparationReentrant circuitTransmural dispersionLeft ventricleAction potentialsTransmural wallIntact myocardiumTopographical distributionChannel mutationsWedge preparationsMidmyocardial cellsRepolarizationLQT2Cellular basisElectrical instability