Improved guinea-pig ventricular cell model incorporating a diadic space, IKr and IKs, and length- and tension-dependent processes (Stretch Model)

Improved guinea-pig ventricular cell model incorporating a diadic space, IKr and IKs, and length- and tension-dependent processes

Model Status

This version has been curated and unit-checked by Penny Noble and is known to run in COR and PCEnv. This variant is the STRETCH model, which includes acetylcholine dependent modulation and the electromechanical processes simulated by the extended basic model, and also includes simulation of stretch and fibroblasts. This model is parameterised the same as the BASIC model, with all additional variables set to zero.

Model Structure

ABSTRACT: The guinea-pig ventricular cell model, originally developed by Noble et al in 1991, has been greatly extended to include accumulation and depletion of calcium in a diadic space between the sarcolemma and the sarcoplasmic reticulum where, according to contempory understanding, the majority of calcium-induced calcium release is triggered. The calcium in this space is also assumed to play the major role in calcium-induced inactivation of the calcium current. Delayed potassium current equations have been developed to include the rapid (IKr) and slow (IKs) components of the delayed rectifier current based on the data of of Heath and Terrar, along with data from Sanguinetti and Jurkiewicz. Length- and tension-dependent changes in mechanical and electrophysiological processes have been incorporated as described recently by Kohl et al. Drug receptor interactions have started to be developed, using the sodium channel as the first target. The new model has been tested against experimental data on action potential clamp, and on force-interval and duration-interval relations; it has been found to reliably reproduce experimental observations.

The original paper reference is cited below:

Improved guinea-pig ventricular cell model incorporating a diadic space, IKr and IKs, and length- and tension-dependent processes, Denis Noble, Anthony Varghese, Peter Kohl and Penelope Noble, 1998, Can J Cardiol, 14, 123-134. PubMed ID: 9487284

A schematic diagram describing the current flows across the cell membrane that are captured in the Noble'98 model.