Title :
Stochastic pacing effect on cardiac alternans - Simulation study of a 2D human ventricular tissue
Author :
Dvir, Hila ; Zlochiver, Sharon
Author_Institution :
Dept. of Biomed. Eng., Tel Aviv Univ., Ramat Aviv, Israel
Abstract :
The physiological heart rate is not deterministic but rather varies in time; those variations are termed heart rate variability (HRV). It is well known that low HRV is often seen in patients prone to arrhythmias. The ability of HRV to predict arrhythmia events is traditionally attributed to an impaired balance between the autonomic sympathetic and parasympathetic tone. However, there is no concrete model that directly relates low HRV to the electrical conduction in the cardiac tissue and to arrhythmogenic dynamic properties. We simulated stochastic cardiac pacing with Gaussian distribution using 2D human ventricular tissue model. Conduction stabilization was obtained with stochastic pacing owing to reduced propensity of the appearance of action potential duration (APD) discordant alternans and reduced APD spatial heterogeneity.
Keywords :
Gaussian distribution; bioelectric phenomena; biological tissues; cardiology; diseases; neurophysiology; physiological models; stochastic processes; 2D human ventricular tissue model; APD discordant alternan; APD spatial heterogeneity; Gaussian distribution; action potential duration; arrhythmia event prediction; arrhythmogenic dynamic properties; autonomic sympathetic tone; cardiac alternan; cardiac tissue electrical conduction; conduction stabilization; heart rate variability; impaired balance; low HRV; parasympathetic tone; physiological heart rate; simulation study; stochastic cardiac pacing simulation; stochastic pacing effect; Heart rate variability; Kinetic theory; Physiology; Standards; Stochastic processes;
Conference_Titel :
Engineering in Medicine and Biology Society (EMBC), 2013 35th Annual International Conference of the IEEE
Conference_Location :
Osaka
DOI :
10.1109/EMBC.2013.6609800
