Abstract
INTRODUCTION: Differences in predictability of ablation success for premature ventricular contractions (PVCs) between earliest isochronal map area (EIA), local activation time (LAT) differences on unipolar and bipolar electrograms (⊿LAT(Bi-Uni)), LAT prematurity on bipolar electrograms (LAT(Bi)), and unipolar morphology of QS or Q pattern remain unclear. We verified multiple statistical predictabilities of those indicators of ablation success on mapped cardiac surface. METHODS: Thirty-five patients with multiple PVCs underwent catheter ablation after LAT mapping using multipolar mapping catheters with unipolar-based annotation. Patients were divided into success and failure groups based on ablation success on mapped cardiac surfaces. Discrimination ability, reclassification table, calibration plots, and decision curve analysis of 10 ms EIA (EIA(10ms)), ⊿LAT(Bi-Uni), and LAT(Bi) were validated. Unipolar morphology was compared between success and failure groups. RESULTS: Right ventricular outflow tract, aortic cusp, and left ventricle were mapped in 17, 10, and 8 patients, respectively. In 14/35 (40%) patients, successful ablation was performed on mapped cardiac surfaces. Area under the curve of receiver-operating characteristic curve of EIA(10ms), ⊿LAT(Bi-Uni), and LAT(Bi) were 0.874, 0.801, and 0.650, respectively (EIA(10ms) vs. LAT(Bi), p =.014; ⊿LAT(Bi-Uni) vs. LAT(Bi), p =.278; EIA(10ms) vs. ⊿LAT(Bi-Uni), p =.464). EIA(10ms) and ⊿LAT(Bi-Uni) demonstrated better predictability, calibration, and clinical utility on reclassification table, calibration plots, and decision curve analysis than LAT(Bi). Unipolar morphology of QS or Q pattern did not correlate with ablation success (p =.518). CONCLUSION: EIA(10ms) and ⊿LAT(Bi-Uni) more accurately predict ablation success for PVCs on mapped cardiac surfaces than LAT(Bi) and unipolar morphology.