CHRISTÉ, Georges, L. RESTIER, M. CHAHINE, P. CHEVALIER a Michal PÁSEK. Effects of a persistent sodium current through mutated hNav1.5 sodium channels on intracellular ionic homeostasis in a ventricular cell model. In Computers in cardiology 2005. Lyon: IEEE, 2005, s. 997-1000. ISBN 0-7803-9337-6. |
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@inproceedings{621713, author = {Christé, Georges and Restier, L. and Chahine, M. and Chevalier, P. and Pásek, Michal}, address = {Lyon}, booktitle = {Computers in cardiology 2005}, keywords = {cardiac cell persistent; sodium current; quantitative modelling}, language = {eng}, location = {Lyon}, isbn = {0-7803-9337-6}, pages = {997-1000}, publisher = {IEEE}, title = {Effects of a persistent sodium current through mutated hNav1.5 sodium channels on intracellular ionic homeostasis in a ventricular cell model}, year = {2005} }
TY - JOUR ID - 621713 AU - Christé, Georges - Restier, L. - Chahine, M. - Chevalier, P. - Pásek, Michal PY - 2005 TI - Effects of a persistent sodium current through mutated hNav1.5 sodium channels on intracellular ionic homeostasis in a ventricular cell model PB - IEEE CY - Lyon SN - 0780393376 KW - cardiac cell persistent KW - sodium current KW - quantitative modelling N2 - In LQT3 patients, SCN5A mutations were found that lead to a small fraction of persistent hNav1.5 current. We explored the effects of such a change on the intracellular ionic homeostasis and arrhythmogenesis in a model of guinea-pig cardiac ventricular cell. ER -
CHRISTÉ, Georges, L. RESTIER, M. CHAHINE, P. CHEVALIER a Michal PÁSEK. Effects of a persistent sodium current through mutated hNav1.5 sodium channels on intracellular ionic homeostasis in a ventricular cell model. In \textit{Computers in cardiology 2005}. Lyon: IEEE, 2005, s.~997-1000. ISBN~0-7803-9337-6.
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