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Spiral waves meandering in a model of an excitable medium Presenter: Mike Malatt Phil McNicholas Jianfeng Zhu.

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Presentation on theme: "Spiral waves meandering in a model of an excitable medium Presenter: Mike Malatt Phil McNicholas Jianfeng Zhu."— Presentation transcript:

1 Spiral waves meandering in a model of an excitable medium Presenter: Mike Malatt Phil McNicholas Jianfeng Zhu

2 Introduction  Spiral waves are two-dimensional(2D) vortices that occurs in a variety of excitable media.  Scroll waves are three-dimensional (3D) vortices, which are extensions of spiral waves.  We will focus on the spiral wave, which is usually characterized by its core.

3 Excitable medium  Excitable medium is the system which has the ability to propagate signals without damping. e.g. forest is an excitable medium when the forest fire travels as a wave; also soccer fans in a stadium performing the “wave”.  Passive medium : the wave propagation is characterized by a gradual damping of signal amplitude due to friction. e.g. sound waves passing through the air.

4 Heart as an excitable medium  Heartbeat is a wave that passes across the heart muscle. A small triggering impulse can lead to a large response (an electrical discharge across the cell membranes, together with a contraction of the heart muscle).  A piece of heart tissue can be triggered by the excitation of a neighboring piece of tissue, which is the basis for the wave action  Heart undergoes scroll waves when the heart is malfunctioning, such as cardiac arrhythmia and fibrillation in the ventricles of the heart.

5 Aliev-Panfilov Model  e: membrane potential  r: conductance of the slow inward current  The parameters are related to the key characteristics of the cardiac tissue, such as the shape of the action potential, refractoriness and the restitution of action potential duration.  we choose and a is varied between 0.12 and 0.18

6 Action potential  The cardiac action potential is the electrical activity of the individual cells of the electrical conduction system of the heart. The cardiac action potential has five phases.

7 Analysis

8 are the blue lines and are the red lines

9 Vector field

10 Numerical method  Explicit Euler finite difference method with on flux boundary condition.  for the value e at the grid point

11

12 Numerical results  spiral waves and its core ( the white lines) in a 2D excitable medium of elements. (hs=0.6 and ht=0.03)  The light gray area represents the excited state of the tissue (e>0.6). (Panfilov, et al., 2005)

13 References  A.V.Panfilov, Scroll waves meandering in a model of an excitable medium, Physical Review E 72,022902(2005)  A.V.Panfilov, A simple Two-variable Model of Cardiac Excitation, Chaos, Solitons and Fractals Vol.7,No,3,pp.293-301,1996.

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