2024
Quantitative Assessment of Mitochondrial Morphology and Electrophysiological Function in the Diabetic Heart
Cacheux M, Rudokas M, Tieu A, Rizk J, Hummel M, Akar F. Quantitative Assessment of Mitochondrial Morphology and Electrophysiological Function in the Diabetic Heart. Methods In Molecular Biology 2024, 2803: 75-86. PMID: 38676886, DOI: 10.1007/978-1-0716-3846-0_6.Peer-Reviewed Original ResearchConceptsMitochondrial shapeMitochondrial networkMitochondrial architectureSubcellular localizationMitochondrial morphologyDiabetic heartOxidative phosphorylationATP synthesisAction potentialsSarcolemmal ion channelsExcitation-contraction couplingFission eventsOptical action potentialsExcitation-contractionCardiac myocytesElectrophysiological properties
2008
Effects of 4′-chlorodiazepam on cellular excitation–contraction coupling and ischaemia–reperfusion injury in rabbit heart
Brown DA, Aon MA, Akar FG, Liu T, Sorarrain N, O’Rourke B. Effects of 4′-chlorodiazepam on cellular excitation–contraction coupling and ischaemia–reperfusion injury in rabbit heart. Cardiovascular Research 2008, 79: 141-149. PMID: 18304929, PMCID: PMC2562874, DOI: 10.1093/cvr/cvn053.Peer-Reviewed Original ResearchConceptsIschaemia-reperfusion injuryExcitation-contraction couplingReperfusion arrhythmiasRabbit heartsDose-dependent negative inotropic responseCellular excitation-contraction couplingPost-ischemic cardiac dysfunctionOnset of reperfusionMin of reperfusionSingle bolus doseNegative inotropic responseIschaemia/reperfusionIntracellular calcium transientsSarcolemmal ion channelsIsolated rabbit cardiomyocytesIon channelsCardiac action potentialContractile impairmentCardiac dysfunctionBolus doseContractile dysfunctionInotropic responseGlobal ischaemiaVoltage clamp methodCalcium current