Exploring the Mechanisms of Cardiac Defibrillation Via Mathematical Modeling

Friday, March 19, 1999 - 10:10am - 11:00am
Lind 409
Matthew Fishler (St. Jude Children's Research Hospital)
The heart utilizes biochemically-generated electrical currents to directly control its mechanical function. Normally, this electrical activity is regular and orderly as it propagates through the heart, thereby generating the strong and coordinated mechanical action required to pump blood through the body (and especially to the brain). Occasionally, however, this electrical pattern is disrupted and transformed into a persistent and uncoordinated electrical storm called fibrillation. Without external intervention, fibrillation is fatal. Cardiac defibrillation is the process by which a strong electric shock is delivered to the heart in order to terminate fibrillation and return the heart to its normal life-sustaining rhythm.

Despite the clear clinical benefits of defibrillation, there are several facets of the defibrillation process which remain unexplained or poorly understood. Beyond the inherent basic science aspect, it is anticipated that unraveling these mysteries might lead to subsequent improvements in the efficiency and/or efficacy of defibrillation. To this end, mathematical modeling of cardiac tissue and shock/tissue interactions has been a valuable tool for formulating and testing hypotheses regarding various mechanisms of defibrillation, as well as for gaining insights into the defibrillation process that are unattainable via other modalities. This talk will first present an overview of cardiac defibrillation and the several approaches for modeling various aspects of the shock/tissue interaction. This will be followed by a more in-depth treatment of one particular open question of defibrillation (how does a shock defibrillate the bulk myocardium?) and how modeling has been instrumental in exploring this question. Finally, additional open questions regarding cardiac defibrillation and which are amenable to mathematical modeling will be summarized.

Movie of Fribrillation (4.4M)