Location: A review of cardiac cellular electrophysiology models @ faebb18f1db5 / index.html

Author:
David Nickerson <david.nickerson@gmail.com>
Date:
2021-09-16 01:07:43+12:00
Desc:
adding BR variant comparison to jupyter notebook
Permanent Source URI:
https://models.fieldml.org/workspace/a1/rawfile/faebb18f1db53a7d1f8f4e7fc588d660d45744c0/index.html

The Noble cardiac ventricular electrophysiology models in CellML

D. P. Nickerson, P. J. Hunter

A PDF of the this article is available: nickerson.pdf.

In our article we presented a review of the cardiac ventricular electrophysiology models developed by Prof. Denis Noble and colleagues. The CellML language was used to describe these models and we make available here the CellML models described in this review and the specific simulations performed. The simulations were all performed using the mozCellML extension for mozilla.

  1. 1962 Noble
  2. 1975 Hunter et al.
  3. 1975 McAllister et al.
  4. 1985 DiFrancesco & Noble
  5. 1998 Noble et al.

1962 Noble

The CellML XML source files can be found here:

The results presented in Fig. 4 are the combination of these simulations, which can be run in mozCellML by clicking on the following links. In each case the parameters in the numerical integration tab of the model viewer window need to be altered: the time interval should be set to 0ms,10000ms; and the maximum step size needs to be 0.01.

1975 Hunter et al.

The CellML XML source files can be found here:

The results presented in Fig. 5 are the combination of these simulations, which can be run in mozCellML by clicking on the link.

1975 McAllister et al.

The CellML file can be obtained here as an XML file. This is a pure CellML 1.0 model containing all neccessary boundary and initial conditions.

The results presented in Fig. 6 include the following simulation, which can be run in mozCellML by clicking on the link.

1985 DiFrancesco & Noble

The CellML file can be obtained here as an XML file. This is a pure CellML 1.0 model containing all neccessary boundary and initial conditions.

The results presented in Fig. 6 include the following simulation, which can be run in mozCellML by clicking on the link.

1998 Noble et al.

The CellML file can be obtained here as an XML file. This is a pure CellML 1.0 model containing all neccessary boundary and initial conditions.

The results presented in Fig. 7 include the following simulation, which can be run in mozCellML by clicking on the link.

  • Applied periodic stimulus current. The stimPeriod variable can be used to control the period of the applied stimulus and g_pna can be set to 0 to turn off the persistent sodium current.

0ms,100ms with a grid resolution of 0.1ms and a maximum time step of 0.01ms.
  • Membrane potential response to a current injection. Need to set the final time to 50ms, the step size to 0.1ms and the maximum step size to 0.01ms.
  • 1975 McAllister et al.

    The CellML file can be obtained here as an XML file. This is a pure CellML 1.0 model containing all neccessary boundary and initial conditions.

    The results presented in Fig. 6 include the following simulation, which can be run in mozCellML by clicking on the link.

    1985 DiFrancesco & Noble

    The CellML file can be obtained here as an XML file. This is a pure CellML 1.0 model containing all neccessary boundary and initial conditions.

    The results presented in Fig. 6 include the following simulation, which can be run in mozCellML by clicking on the link.

    1998 Noble et al.

    The CellML file can be obtained here as an XML file. This is a pure CellML 1.0 model containing all neccessary boundary and initial conditions.

    The results presented in Fig. 7 include the following simulation, which can be run in mozCellML by clicking on the link.

    • Applied periodic stimulus current. The stimPeriod variable can be used to control the period of the applied stimulus and g_pna can be set to 0 to turn off the persistent sodium current.