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Literature DB >> 7326286

Difference equation model of the entrainment of myocardial pacemaker cells based on the phase response curve.

Abstract

As a method for investigating entrainment phenomena found in biological oscillations, a model is presented which is formulated as a set of difference equations on the basis of "phase response curves" of biological oscillators. Properties of the model are discussed and synchronization of cardiac pacemaker cells to the external periodic stimuli is analyzed by use of the model. It is shown that the model is reducible to an equivalent system to the mathematical neuron model of Nagumo et al. under a specific parametric condition of the phase response curve. As an application to the cardiac arrhythmias, the model of ventricular parasystoles studied by Moe et al. is described mathematically in terms of a system of difference equations. In addition, a more comprehensive model of ventricular parasystoles is proposed.

Entities: Disease

Mesh：

Year: 1981 PMID： 7326286 DOI： 10.1007/bf00336729

Source DB: PubMed Journal: Biol Cybern ISSN： 0340-1200 Impact factor: 2.086

12 in total

Difference equation model of the entrainment of myocardial pacemaker cells based on the phase response curve.

1. Outline of a theory of thought-processes and thinking machines.

2. Aplysia bursting neurons as endogenous oscillators. I. Phase-response curves for pulsed inhibitory synaptic input.

3. On a response characteristic of a mathematical neuron model.

4. Response characteristics of a neuron model to a periodic input.

5. Mathematical properties of responses of a neuron model. A system as a rational number generator.

6. Mechanism of rhythm determination among pacemaker cells of the mammalian sinus node.

7. Automaticity and entrance block induced by focal depolarization of mammalian ventricular tissues.

8. Effect of electrotonic potentials on pacemaker activity of canine Purkinje fibers in relation to parasystole.

9. Apparent suppression of ventricular parasystole by cardiac pacing.

10. Modulation of Hydra attenuata rhythmic activity: phase response curve.

1. Entrainment in pacemakers characterized by a V-shaped PRC.

2. On the relationship between two models of neural entrainment.

3. The heart as a system of coupled nonlinear oscillators.

4. Global bifurcations of a periodically forced nonlinear oscillator.

5. Model of bidirectional interaction between myocardial pacemakers based on the phase response curve.

6. Pulse sequences generated by a degenerate analog neuron model.

7. Suppression of pacemaker activity by rapid repetitive phase delay.