Titlebook: Biopacemaking; J. A. E Spaan,Ruben Coronel,Antonio Zaza Book 2007 Springer-Verlag Berlin Heidelberg 2007 Cardiac Signals.Electrocardiogram

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Computer Modelling of the Sinoatrial Node,e cardiac cell membrane. Sophisticated cardiac cell models based on these data can help us understand how the different types of ion channels act together to produce the cardiac action potential. In the field of biological pacemaker engineering, such models provide important instruments for the asse

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Enrichment of Cardiac Pacemaker-Like Cells: Neure gulin-1 and Cyclic amp Increase If-Current Densitogical cardiac pacemaker system. The aim of the present study was to identify factors, which might induce transformation of a heterogenous population of fetal cardiomyocytes into cells with a pacemaker-like phenotype. Neuregulin-1 (α-and .-isoform) or the cAMP was added to fresh cell cultures of mur

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Biswajeet Pradhan,Waleed M. Abdulwahidemaker. A normal sinus node remains spontaneously active at high concentrations of acetylcholine, because it has areas that are unresponsive to acetylcholine. The same is pertinent to other substances with a negative chronotropic effect. Such functional inhomogeneity is lacking in biological pacemak

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https://doi.org/10.1007/978-3-030-10374-3 communication by halothane or inhibition of . . by BaCl. restored the original membrane potential and spontaneous activity of the NCMs. Our results demonstrate the power of electrotonic coupling for the application of specific ion currents into an engineered cellular construct such as a biological

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R. Sampaolesi,J. R. Sampaolesi,R. A. Uchahe left ventricles of mice. The transplanted cardiomyocytes survived and connected to surrounding recipient cardiomyocytes via intercalated discs. Although further innovation is required, the present findings provide evidence of the potential for bone marrow-derived cardiomyocytes to be used as bio-