2007
Dynamic changes in conduction velocity and gap junction properties during development of pacing-induced heart failure
Akar FG, Nass RD, Hahn S, Cingolani E, Shah M, Hesketh GG, DiSilvestre D, Tunin RS, Kass DA, Tomaselli GF. Dynamic changes in conduction velocity and gap junction properties during development of pacing-induced heart failure. AJP Heart And Circulatory Physiology 2007, 293: h1223-h1230. PMID: 17434978, DOI: 10.1152/ajpheart.00079.2007.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAnimalsCardiac Pacing, ArtificialConnexin 43Disease Models, AnimalDogsDown-RegulationGap JunctionsHeart Conduction SystemHeart FailureMalePhosphorylationProtein IsoformsTachycardia, VentricularTime FactorsVentricular Function, LeftVentricular PressureVentricular RemodelingConceptsEnd-stage heart failureHeart failureConduction velocityMechanical dysfunctionCV slowingPacing-induced heart failureDevelopment of HFOnset of HFMechanical functionCx43 isoformConduction abnormalitiesCx43 lateralizationAdvanced stageBaseline levelsMyocardial preparationsPhosphorylation of Cx43High-resolution optical mappingSustained downregulationMarked increaseDephosphorylated Cx43LVEDPGap junction propertiesConduction changesDysfunctionTime course
2004
Mechanisms Underlying Conduction Slowing and Arrhythmogenesis in Nonischemic Dilated Cardiomyopathy
Akar FG, Spragg DD, Tunin RS, Kass DA, Tomaselli GF. Mechanisms Underlying Conduction Slowing and Arrhythmogenesis in Nonischemic Dilated Cardiomyopathy. Circulation Research 2004, 95: 717-725. PMID: 15345654, DOI: 10.1161/01.res.0000144125.61927.1c.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAnimalsArrhythmias, CardiacBlotting, WesternCadherinsCardiac Pacing, ArtificialCardiomyopathy, DilatedCell SizeConnexin 43DogsFibrosisGap JunctionsHeart Conduction SystemMicroscopy, ConfocalMicroscopy, FluorescenceMyocardiumMyocytes, CardiacNeural ConductionPatch-Clamp TechniquesPhosphorylationProtein Processing, Post-TranslationalSubcellular Fractions
1999
Mechanism Linking T-Wave Alternans to the Genesis of Cardiac Fibrillation
Pastore J, Girouard S, Laurita K, Akar F, Rosenbaum D. Mechanism Linking T-Wave Alternans to the Genesis of Cardiac Fibrillation. Circulation 1999, 99: 1385-1394. PMID: 10077525, DOI: 10.1161/01.cir.99.10.1385.Peer-Reviewed Original Research
1998
Modulated Dispersion Explains Changes in Arrhythmia Vulnerability During Premature Stimulation of the Heart
Laurita K, Girouard S, Akar F, Rosenbaum D. Modulated Dispersion Explains Changes in Arrhythmia Vulnerability During Premature Stimulation of the Heart. Circulation 1998, 98: 2774-2780. PMID: 9851966, DOI: 10.1161/01.cir.98.24.2774.Peer-Reviewed Original ResearchConceptsVentricular fibrillation thresholdSingle premature stimulusPremature stimuliArrhythmia vulnerabilityBaseline levelsPremature stimulationS1S2 intervalRepolarization gradientsGuinea pig heartsBaseline pacingFibrillation thresholdArrhythmogenic substrateVentricular fibrillationVentricular sitesStimulus-induced changesVentricular repolarizationCoupling intervalCardiac arrhythmiasS2 beatElectrophysiological propertiesAction potentialsOptical action potentialsHeterogeneous electrophysiological propertiesPig heartsRepolarization