Mathematical models of a cellular action potential in cardiac modelling have become increasingly complex, particularly in gating kinetics which control the opening and closing of individual ion channel currents. As cardiac models advance towards use in personalised medicine to inform clinical decision- making, it is critical to understand the uncertainty hidden in parameter estimates from their calibration to experimental data. This study applies approximate Bayesian computation to re-calibrate the gating kinetics of four ion channels in two existing human atrial cell models to their original datasets, providing a measure of uncertainty from the parameter posterior distributions. Two approaches are investigated to reduce the uncertainty pre...
Uncertainty quantification (UQ) is a vital step in using mathematical models and simulations to take...
Biophysically detailed cardiac cell models reconstruct the action potential and calcium dynamics of ...
Uncertainty quantification (UQ) is a vital step in using mathematical models and simulations to take...
Mathematical models of a cellular action potential in cardiac modelling have become increasingly com...
Cardiac cell models are potentially valuable tools for applications such as quantitative safety phar...
The goal of systems biology is to provide a predictive and quantitative understanding of complex bio...
The voltage-gated Na+ channel Nav1.5 is critical for normal cardiac myocyte excitability. Mathematic...
Introduction: The development of improved diagnosis, management and treatment strategies for human a...
As cardiac cell models become increasingly complex, a correspondingly complex ‘genealogy’ of inherit...
Introduction: The development of improved diagnosis, management, and treatment strategies for human ...
Cardiac electrophysiology models have been developed for over 50 years, and now include detailed des...
As cardiac cell models become increasingly complex, a correspondingly complex “genealogy” of inherit...
Cardiac electrophysiology models have been developed for over 50years, and now include detailed desc...
There are many sources of uncertainty in the recording and modelling of membrane action potentials (...
Markov models (MMs) represent a generalization of Hodgkin-Huxley models. They provide a versatile st...
Uncertainty quantification (UQ) is a vital step in using mathematical models and simulations to take...
Biophysically detailed cardiac cell models reconstruct the action potential and calcium dynamics of ...
Uncertainty quantification (UQ) is a vital step in using mathematical models and simulations to take...
Mathematical models of a cellular action potential in cardiac modelling have become increasingly com...
Cardiac cell models are potentially valuable tools for applications such as quantitative safety phar...
The goal of systems biology is to provide a predictive and quantitative understanding of complex bio...
The voltage-gated Na+ channel Nav1.5 is critical for normal cardiac myocyte excitability. Mathematic...
Introduction: The development of improved diagnosis, management and treatment strategies for human a...
As cardiac cell models become increasingly complex, a correspondingly complex ‘genealogy’ of inherit...
Introduction: The development of improved diagnosis, management, and treatment strategies for human ...
Cardiac electrophysiology models have been developed for over 50 years, and now include detailed des...
As cardiac cell models become increasingly complex, a correspondingly complex “genealogy” of inherit...
Cardiac electrophysiology models have been developed for over 50years, and now include detailed desc...
There are many sources of uncertainty in the recording and modelling of membrane action potentials (...
Markov models (MMs) represent a generalization of Hodgkin-Huxley models. They provide a versatile st...
Uncertainty quantification (UQ) is a vital step in using mathematical models and simulations to take...
Biophysically detailed cardiac cell models reconstruct the action potential and calcium dynamics of ...
Uncertainty quantification (UQ) is a vital step in using mathematical models and simulations to take...