Title :
Eliminating pinned spiral waves in cardiac monolayer by far field pacing
Author :
Shajahan, T.K. ; Krinski, Valentin I. ; Knyazeva, Svetlana ; Luther, Samuel
Author_Institution :
Max Planck Inst. for Dynamics & Self-Organ., Gttingen, Germany
Abstract :
Fibrillation in the heart often consists of multiple spiral waves of electrical activation in cardiac tissue. To terminate these multiple waves, recently proposed Low Energy Antifibrillation Pacing (LEAP) uses a series of low energy pulses. This achieves an energy reduction of about 80% in animal experiments. To understand the mechanism of LEAP we study the interaction of electric pulses with pinned spiral waves in monolayers of cardiac cells. Optical mapping and controlled placing of heterogeneities allow us to observe the activation dynamics in these monolayers during field pulsing. We show that a pinned wave can be terminated by a series of pulses when one of the pulses falls in the vulnerable window of the pinned spiral.
Keywords :
bioelectric potentials; biological tissues; biomedical optical imaging; cellular biophysics; diseases; fluorescence; monolayers; activation dynamics; animal experiments; cardiac cells; cardiac monolayer; cardiac tissue; electric pulse interaction; electrical activation; energy reduction; far field pacing; heart fibrillation; heterogeneity controlled placing; low energy antifibrillation pacing; low energy pulse series; multiple spiral waves; optical mapping; pinned spiral wave elimination; Calcium; Electrodes; Europe; Glass; Heart; Muscles; Spirals;
Conference_Titel :
Cardiovascular Oscillations (ESGCO), 2014 8th Conference of the European Study Group on
Conference_Location :
Trento
DOI :
10.1109/ESGCO.2014.6847564
