Title :
Mathematical modelling of electrotonic interaction between stem cell-derived cardiomyocytes and fibroblasts
Author :
Paci, M. ; Sartiani, L. ; Jaconi, M.E. ; Cerbai, E. ; Severi, S.
Author_Institution :
Univ. of Bologna, Cesena, Italy
Abstract :
Human embryonic stem cell-derived cardiomyocytes (hES-CMs) represent a promising tool for cell therapy and drug screening. We developed a hES-CM mathematical model based on data acquired with electrophysiological and RT-PCR techniques. Coupling with modelled fibroblasts was assessed too. hES-CM model reproduced satisfactorily most of the action potential (AP) features. Coupling with fibroblasts shows an increment of slope of diastolic depolarization and beating frequency and reduction of the AP peak. These results suggest that our novel mathematical model can serve as a predictive approach to interpret and refine in-vitro experiments on hES-CMs.
Keywords :
bioelectric phenomena; cardiology; cellular transport; mathematical analysis; physiological models; RT-PCR techniques; action potential; beating frequency; cardiomyocytes; cell therapy; diastolic depolarization; drug screening; electrophysiological techniques; electrotonic interaction; fibroblasts; human embryonic stem cell; in-vitro experiments; mathematical modelling; Biological system modeling; Cardiology; Couplings; Data models; Electric potential; Humans; Mathematical model;
Conference_Titel :
Computing in Cardiology, 2010
Conference_Location :
Belfast
Print_ISBN :
978-1-4244-7318-2
