Ablation Parameters Predicting Pulmonary Vein Reconnection after Very High-Power Short-Duration Pulmonary Vein Isolation

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
M. Boga, G. Orbán, Z. Salló, K. V. Nagy, I. Osztheimer, A. B. Ferencz, F. Komlósi, Patrik Tóth, Edit Tanai, P. Perge, Béla Merkely, László Gellér, N. Szegedi
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Abstract

Background: Recurrences due to discontinuity in ablation lines are substantial after pulmonary vein isolation (PVI) with radiofrequency ablation for atrial fibrillation. Data are scarce regarding the durability predictors for very high-power short-duration (vHPSD, 90 W/4 s) ablation. Methods: A total of 20 patients were enrolled, who underwent 90 W PVI and a mandatory remapping procedure at 3 months. First-pass isolation (FPI) gaps, and acute pulmonary vein reconnection (PVR) sites were identified at the index procedure; and chronic PVR sites were identified at the repeated procedure. We analyzed parameters of ablation points (n = 1357), and evaluated their roles in predicting a composite endpoint of FPI gaps, acute and chronic PVR. Results: In total, 45 initial ablation points corresponding to gaps in the ablation lines were analyzed. Parameters associated with gaps were interlesion distance (ILD), baseline generator impedance, mean current, total charge, and loss of catheter–tissue contact. The optimal ILD cut-off for predicting gaps was 3.5 mm anteriorly, and 4 mm posteriorly. Conclusions: Biophysical characteristics dependent on generator impedance could affect the efficacy of vHPSD PVI. The use of smaller ILDs is required for effective and durable PVI with vHPSD compared to the consensus targets with lower power ablation, and lower ILDs for anterior applications seem necessary compared to posterior points.
预测极高功率短时肺静脉隔离术后肺静脉重新连接的消融参数
背景:心房颤动射频消融术进行肺静脉隔离(PVI)后,由于消融线不连续而导致的复发率很高。有关超高功率短持续时间(vHPSD,90 W/4 s)消融的耐久性预测因素的数据很少。方法:共招募了 20 名患者,他们接受了 90 W PVI,并在 3 个月后接受了强制性重映射手术。在首次手术中确定了首段隔离(FPI)间隙和急性肺静脉再连接(PVR)部位;在重复手术中确定了慢性 PVR部位。我们分析了消融点(n = 1357)的参数,并评估了它们在预测 FPI 间隙、急性和慢性 PVR 综合终点方面的作用。结果共分析了与消融线间隙相对应的 45 个初始消融点。与间隙相关的参数包括线间距离(ILD)、基线发生器阻抗、平均电流、总电荷和导管-组织接触损失。预测间隙的最佳 ILD 临界值为前方 3.5 毫米,后方 4 毫米。结论:取决于发生器阻抗的生物物理特性会影响 vHPSD PVI 的疗效。与使用低功率消融的共识目标相比,使用 vHPSD 进行有效、持久的 PVI 需要使用较小的 ILD,与后方点相比,前方应用似乎需要较低的 ILD。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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