Thawing plateau time indicating the duration of phase transition from ice to water is the strongest predictor for long-term durable pulmonary vein isolation after cryoablation for atrial fibrillation

L. Shi, SY Chu, Yc Wang, E. Solheim, P. Schuster, J. Chen
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Abstract

Type of funding sources: Foundation. Main funding source(s): Helse Vest, Norway (LBS), and the Research Council of Norway (SYC). Cryoballoon ablation is an important method for pulmonary vein (PV) isolation in treatment of atrial fibrillation (AF). Previous studies have shown that thawing time, but not freezing time or temperature, impacts PV reconnection during long-term follow-up. However, it is unknown whether the entire or only part of the thawing stage plays a critical role. This study aimed to clarify the relationship between the durability of PV isolation and the time of phase transition from ice to water indicated by thawing plateau (TP) time during a cryoballoon ablation. In this retrospective study, 241 PVs from 71 patients who underwent a repeat AF ablation 526 (IQR: 412, 675) days after a cryoballoon ablation were analyzed. The predictive value of procedural parameters for the durability of PV isolation were evaluated. Definitions of different phases of the temperature-time curve are shown in Figure 1. TP Time is defined as the time from 0 to 10°C inside the balloon in the thawing period (the plateau on the curve). Reconnection was observed in 101 (41.9%) PVs of 53 patients (74.6%). Durable PV isolation was associated with significantly longer TP Time compared with PV reconnection (26.0 vs. 11.0 s, P<0.001). The proportion of durable PV isolations increased with TP Time in a dose-proportional manner (Figure 2). The cut point for PV reconnection was TP Time <15 s with a positive predictive value of 82.1% (sensitivity=63.4%, specificity=90.0%) while for durable PV isolation the cut point was TP Time >25 s with a positive predictive value of 84.6% (sensitivity=55.0%, specificity=86.1%). After the analysis of multivariable logistic regression, location of PV (P<0.01), and TP Time (P<0.05) were shown as independent predictors for durable PV isolation. None of nadir temperature, initial cooling time, effective freezing time, initial thawing time, or late warming time was independent predictor. Accumulated TP Time for all PVs showed a positive linear correlation with the plasma level of troponin T (ρ=0.624, P<0.01). TP Time is an independent predictor for the durability of PV isolation, and it presents in a dose-proportional manner. TP Time <15 s predicts long-term reconnection while TP Time >25 s predicts durable PV isolation.
表明从冰到水相变持续时间的解冻平台时间是房颤冷冻消融后长期持久肺静脉隔离的最强预测因子
经费来源类型:基金会。主要资金来源:挪威Helse Vest (LBS)和挪威研究委员会(SYC)。低温球囊消融是房颤(AF)治疗中肺静脉隔离的重要方法。先前的研究表明,在长期随访中,解冻时间,而不是冻结时间或温度,会影响PV重新连接。然而,尚不清楚是整个融化阶段还是部分融化阶段起关键作用。本研究旨在阐明低温球囊消融过程中由冰到水的相变时间与PV隔离的持久性之间的关系。在这项回顾性研究中,我们分析了71例低温球囊消融后526天(IQR: 412,675)天重复房颤消融患者的241个pv。评估了程序参数对PV隔离耐久性的预测值。温度-时间曲线不同阶段的定义如图1所示。TP时间定义为气球内部在解冻期(曲线上的平台期)从0℃到10℃的时间。53例(74.6%)患者中101例(41.9%)pv出现重连。与PV重新连接相比,持久PV隔离与更长的TP时间相关(26.0 vs 11.0 s, P25 s),阳性预测值为84.6%(敏感性=55.0%,特异性=86.1%)。经多变量logistic回归分析,PV (P25) s的位置预测PV隔离的持久性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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