Arrhythmogenic effect of extracellular K-depletion is prevented by the transverse-axial tubular system in a ventricular cardiac cell model

• Authors: PÁSEK Michal; CHRISTÉ Georges; ŠIMURDA Jiří
• Year of publication: 2002
• Type: Article in Periodical
• Magazine / Source: Scripta Medica Fac.Med.Univ.Masaryk.Brun.
• MU Faculty or unit: Faculty of Medicine
• Field: Physiology
• Keywords: ventricular cell; low external [K]; tubular system; quantitative modelling
• Description: In this work, we studied the role of the transverse-axial tubular system (TAT-system) in arrythmogenesis of ventricular cardiac cells under conditions of simulated hypokalaemia (low [K]e). We used the model of a mammalian ventricular myocyte that integrated the quantitative description of electrical activity of surface and tubular membranes and dynamic changes in intracellular ion concentrations. To maintain potassium homeostasis, an energy-dependent K+ extrusion pump was incorporated into the model. According to predictions provided by the model, the TAT-system protects the cell against arrhythmogenesis due to the enhancement of a potassium concentration gradient between tubular and extracellular spaces at low levels of [K]e. The energy-dependent K extrusion pump maintains tubular [K] at a level higher than the overall [K]e. This makes the activation of tubular K-conductances responsible for action potential repolarisation and resting voltage.

Related projects

• Quantitative analysis of effect of tubular system on electrical activity of cardiac cells
• Early diagnostics of Cardiovascular Diseases