Neither biventricular nor right ventricular pacing altered the reductions in action potential amplitudes, conduction velocities, and calcium transients caused by myocardial infarction.
Does the site of ventricular pacing alter the properties of electrical propagation and calcium signaling after myocardial infarction in a rabbit model?
In a rabbit model of myocardial infarction, biventricular pacing does not alter regional electrical conduction or calcium signaling properties, suggesting its benefits are mediated through other mechanisms.
INTRODUCTION: Myocardial infarction (MI) disrupts electrical conduction in affected ventricular areas. We investigated the effect of MI on the regional voltage and calcium (Ca) signals and their propagation properties, with special attention to the effect of the site of ventricular pacing on these properties. METHODS: New Zealand White rabbits were divided into four study groups: sham-operated (C, n = 6), MI with no pacing (MI, n = 7), MI with right ventricular pacing (MI + RV, n = 6), and MI with BIV pacing (MI + BIV, n = 7). At 4 weeks, hearts were excised, perfused, and optically mapped. As previously shown, systolic and diastolic dilation of the LV were prevented by BIV pacing, as was the reduction in LV fractional shortening. RESULTS: Four weeks after MI, optical mapping revealed markedly reduced action potential amplitudes and conduction velocities (CV) in MI zones, and these increased gradually in the border zone and normal myocardial areas. Also, Ca transients were absent in the infarcted areas and increased gradually 3-5 mm from the border of the normal zone. Neither BIV nor RV pacing affected these findings in any of the MI, border, or normal zones. CONCLUSIONS: MI has profound effects on the regional electrical and Ca signals and on their propagation properties in this rabbit model. The absence of differences in these parameters by study group suggests that altering the properties of myocardial electrical conduction and Ca signaling are unlikely mechanisms by which BIV pacing confers its benefits. Further studies into the regional, cellular, and molecular benefits of BIV pacing are therefore warranted.
Saba et al. (Thu,) conducted a other in Myocardial infarction (n=26). Right ventricular or biventricular pacing vs. Sham-operated or MI with no pacing was evaluated on Regional voltage and calcium signals and their propagation properties. Neither biventricular nor right ventricular pacing altered the reductions in action potential amplitudes, conduction velocities, and calcium transients caused by myocardial infarction.
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