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Circ Arrhythm Electrophysiol · Aug 2015
Electrogram analysis and pacing are complimentary for recognition of abnormal conduction and far-field potentials during substrate mapping of infarct-related ventricular tachycardia.
- Samuel H Baldinger, Koichi Nagashima, Saurabh Kumar, Chirag R Barbhaiya, Eue-Keun Choi, Laurence M Epstein, Gregory F Michaud, Roy John, Usha B Tedrow, and William G Stevenson.
- From the Cardiac Arrhythmia Center, Cardiovascular Division, Brigham and Women's Hospital, Boston, MA.
- Circ Arrhythm Electrophysiol. 2015 Aug 1; 8 (4): 874-81.
BackgroundMapping to identify scar-related ventricular tachycardia re-entry circuits during sinus rhythm focuses on sites with abnormal electrograms or pace-mapping findings of QRS morphology and long stimulus to QRS intervals. We hypothesized that (1) these methods do not necessarily identify the same sites and (2) some electrograms are far-field potentials that can be recognized by pacing.Methods And ResultsFrom 12 patients with coronary disease and recurrent ventricular tachycardia undergoing catheter ablation, we retrospectively analyzed electrograms and pacing at 546 separate low bipolar voltage (<1.5 mV) sites. Electrograms were characterized as showing evidence of slow conduction if late potentials (56%) or fractionated potentials (76%) were present. Neither was present at (13%) sites. Pacing from the ablation catheter captured 70% of all electrograms. Higher bipolar voltage and fractionation were independent predictors for pace capture. There was a linear correlation between the stimulus to QRS duration during pacing and the lateness of a capturing electrogram (P<0.001), but electrogram and pacing markers of slow conduction were discordant at 40% of sites. Sites with far-field potentials, defined as those that remained visible and not captured by pacing stimuli, were identified at 48% of all pacing sites, especially in areas of low bipolar voltage and late potentials. Initial radiofrequency energy application rendered 74% of targeted sites electrically unexcitable.ConclusionsFar-field potentials are common in scar areas. Combining analysis of electrogram characteristics and assessment of pace capture may refine identification of substrate targets for radiofrequency ablation.© 2015 American Heart Association, Inc.
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