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| Publications [#63151] of Robert A Malkin
Papers Published
- Malkin, R.A. and Entcheva, E., The mechanism of the ULV dose-response curve: a model study,
Computers in Cardiology 1996 (Cat. No.96CH36012)
(1996),
pp. 213 - 16, Indianapolis, IN, USA [CIC.1996.542511]
(last updated on 2007/04/14)
Abstract:
A stimulus given in the T-wave (a ULV stimulus) of a paced cardiac cycle can induce ventricular fibrillation (VF). However, if the ULV stimulus strength is increased, the probability of inducing VF drops in a dose-response fashion. This paper presents a hypothesis which explains this dose-response relationship. We hypothesize that the dose-response relationship arises from the variation in the location of the induction of rotating wavefronts. If the wavefronts are initiated near an anatomical obstacle, such as the A-V groove, they have a high probability of wandering into the obstacle and reducing to quiescence. If the wavefronts are initiated far from such an obstacle, they have a high probability of surviving long enough to disintegrate into VF. Since increasing the stimulus strength can reduce the distance between the A-V groove and the location of the wavefronts, the probability of inducing VF drops with increasing stimulus strength. Modeling results are presented to support a key aspect of this hypothesis. From the hypothesis, several theoretical predictions are made. It is shown that the experimental evidence supports several of these predictions
Keywords:
biocontrol;bioelectric phenomena;cardiology;physiological models;
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