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271.
Evolution of the Organization of Epicardial Activation Patterns During Ventricular Fibrillation 总被引:1,自引:0,他引:1
JIAN HUANG M.D. JACK M. ROGERS PH.D. BRUCE H. KENKNIGHT PH.D. DENNIS L. ROLLINS M.S. WILLIAM M. SMITH PH.D. RAYMOND E. IDEKER M.D. PH.D. 《Journal of cardiovascular electrophysiology》1998,9(12):1291-1304
Activation During Ventricular Fibrillation. Introduction : This study quantified how the organization of epicardial activation changes during the first 40 seconds of ventricular fibrillation (VF).
Activation During Ventricular Fibrillation. Introduction : This study quantified how the organization of epicardial activation changes during the first 40 seconds of ventricular fibrillation (VF).
Methods and Results : Unipolar potentials were mapped from a 504 (24 × 21) electrode array (2-mm interelectrode spacing) on the anterior right ventricle (RV) and left ventricle (LV) epicardium. The array covered approximately 20% of the epicardial surface. In each of seven pigs, six episodes of VF were induced by premature stimulation. One-half second epochs of VF were analyzed, starting 0, 10, 20, 30, and 40 seconds post induction and using novel pattern analysis algorithms. Eight parameters were quantified: (1) the number of wavefronts; (2) the epicardial area activated by wavefronts; (3) the fraction of wavefronts arising from epicardial breakthrough or from a focus; (4) the fraction of wavefronts terminated by conduction block; (5) the multiplicity index (number of distinct activation pathways in the rhythm); (6) the repeatability index (number of times activation pathways are traversed); (7) the activation rate; and (8) the wavefront propagation velocity. The results showed that VF patterns were less organized at 10 than at 0 seconds, with more, smaller wavefronts traversing a larger variety of pathways for fewer repetitions. VF activation patterns then gradually reorganized up to 40 seconds, but by a different mechanism: the spatial size of subpatterns grew, but the dynamics otherwise appeared unchanged. During both transitions, both activation rate and propagation velocity slowed monotonically.
Conclusion : Thus, changes in organization during VF can occur by multiple mechanisms. 相似文献
Activation During Ventricular Fibrillation. Introduction : This study quantified how the organization of epicardial activation changes during the first 40 seconds of ventricular fibrillation (VF).
Methods and Results : Unipolar potentials were mapped from a 504 (24 × 21) electrode array (2-mm interelectrode spacing) on the anterior right ventricle (RV) and left ventricle (LV) epicardium. The array covered approximately 20% of the epicardial surface. In each of seven pigs, six episodes of VF were induced by premature stimulation. One-half second epochs of VF were analyzed, starting 0, 10, 20, 30, and 40 seconds post induction and using novel pattern analysis algorithms. Eight parameters were quantified: (1) the number of wavefronts; (2) the epicardial area activated by wavefronts; (3) the fraction of wavefronts arising from epicardial breakthrough or from a focus; (4) the fraction of wavefronts terminated by conduction block; (5) the multiplicity index (number of distinct activation pathways in the rhythm); (6) the repeatability index (number of times activation pathways are traversed); (7) the activation rate; and (8) the wavefront propagation velocity. The results showed that VF patterns were less organized at 10 than at 0 seconds, with more, smaller wavefronts traversing a larger variety of pathways for fewer repetitions. VF activation patterns then gradually reorganized up to 40 seconds, but by a different mechanism: the spatial size of subpatterns grew, but the dynamics otherwise appeared unchanged. During both transitions, both activation rate and propagation velocity slowed monotonically.
Conclusion : Thus, changes in organization during VF can occur by multiple mechanisms. 相似文献