The 'Comprehensive In vitro Proarrhythmia Assay' (CiPA) initiative proposes a new mechanistic, model-informed, approach to cardiac safety assessment of new drugs, an approach made possible by a deeper understanding of the ionic currents that play a role in QTc prolongation and in the development of torsades de pointes (TdP). In defining a new paradigm in the field of cardiac safety the proarrhythmic risk would be primarily assessed using preclinical in vitro and in silico human models. In this scenario the best cellular computer model(s) would have to be selected and if necessary improved. The aim of this study has been the upgrade of the most updated human ventricular cell model in order to: 1) correct its response to [Ca2+]°changes; 2) re...
The importance of electrolyte concentrations for cardiac function is well established. Electrolyte v...
The importance of electrolyte concentrations for cardiac function is well established. Electrolyte v...
In silico cardiac myocyte models present powerful tools for drug safety testing and for predicting p...
The 'Comprehensive In vitro Proarrhythmia Assay' (CiPA) initiative proposes a new mechanistic, model...
The aim of our work consists in developing a new model of the human ventricular cardiomyocyte, based...
The use of experiments for studying cardiac arrhyth-mias, the effect of drugs, or pathologies on car...
Early prediction of cardiotoxicity is critical for drug development. Current animal models raise eth...
For the last decade, cardiac safety screening to evaluate the propensity of drugs to produce QT inte...
International Council on Harmonization S7B and E14 regulatory guidelines are sensitive but not speci...
This chapter highlights various non-automated classical in vitro techniques used today to evaluate d...
Concerns over cardiac side effects are the largest single cause of compound attrition during pharmac...
Sudden cardiac death (SCD) is one of the largest causes of natural mortality throughout the world. S...
The aim of the present database is to describe the in silico cardiac safety profile of drugs and the...
Human-based in silico models are emerging as important tools to study the effects of integrating inw...
Drugs can interact with cardiac cells to produce dangerous effects on the heart's natural rhythm. P...
The importance of electrolyte concentrations for cardiac function is well established. Electrolyte v...
The importance of electrolyte concentrations for cardiac function is well established. Electrolyte v...
In silico cardiac myocyte models present powerful tools for drug safety testing and for predicting p...
The 'Comprehensive In vitro Proarrhythmia Assay' (CiPA) initiative proposes a new mechanistic, model...
The aim of our work consists in developing a new model of the human ventricular cardiomyocyte, based...
The use of experiments for studying cardiac arrhyth-mias, the effect of drugs, or pathologies on car...
Early prediction of cardiotoxicity is critical for drug development. Current animal models raise eth...
For the last decade, cardiac safety screening to evaluate the propensity of drugs to produce QT inte...
International Council on Harmonization S7B and E14 regulatory guidelines are sensitive but not speci...
This chapter highlights various non-automated classical in vitro techniques used today to evaluate d...
Concerns over cardiac side effects are the largest single cause of compound attrition during pharmac...
Sudden cardiac death (SCD) is one of the largest causes of natural mortality throughout the world. S...
The aim of the present database is to describe the in silico cardiac safety profile of drugs and the...
Human-based in silico models are emerging as important tools to study the effects of integrating inw...
Drugs can interact with cardiac cells to produce dangerous effects on the heart's natural rhythm. P...
The importance of electrolyte concentrations for cardiac function is well established. Electrolyte v...
The importance of electrolyte concentrations for cardiac function is well established. Electrolyte v...
In silico cardiac myocyte models present powerful tools for drug safety testing and for predicting p...