Spatiotemporal correlation analysis of canine ventricles revealed that the characteristic decay length decreases from 40 cm during normal pacing to about 1 cm during sustained ventricular fibrillation.
Identifies a characteristic spatial decay length in cardiac tissue that decreases significantly prior to and during fibrillation, providing a novel fractional scaling law for modeling cardiac electrophysiology.
Complex spatiotemporal patterns of action potential duration have been shown to occur in many mammalian hearts due to period-doubling bifurcations that develop with increasing frequency of stimulation. Here, through high-resolution optical mapping experiments and mathematical modeling, we introduce a characteristic spatial length of cardiac activity in canine ventricular wedges via a spatiotemporal correlation analysis, at different stimulation frequencies and during fibrillation. We show that the characteristic length ranges from 40 to 20 cm during one-to-one responses and it decreases to a specific value of about 3 cm at the transition from period-doubling bifurcation to fibrillation. We further show that during fibrillation, the characteristic length is about 1 cm. Another significant outcome of our analysis is the finding of a constitutive phenomenological law obtained from a nonlinear fitting of experimental data which relates the conduction velocity restitution curve with the characteristic length of the system. The fractional exponent of 3/2 in our phenomenological law is in agreement with the domain size remapping required to reproduce experimental fibrillation dynamics within a realistic cardiac domain via accurate mathematical models.
Loppini et al. (Fri,) conducted a other in Ventricular fibrillation (n=7). Electrical pacing vs. Sustained fibrillation (no pacing) was evaluated on Decay length (L0) of spatiotemporal correlation. Spatiotemporal correlation analysis of canine ventricles revealed that the characteristic decay length decreases from 40 cm during normal pacing to about 1 cm during sustained ventricular fibrillation.
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