Liu Peter R, Friedman Daniel J, Barnett Adam S, Jackson Kevin P, Daubert James P, Piccini Jonathan P
Department of Medicine Johns Hopkins Hospital Baltimore MD USA.
Duke Center for Atrial Fibrillation Duke Clinical Research Institute Duke University Medical Center Durham NC USA.
J Arrhythm. 2020 Feb 24;36(2):311-318. doi: 10.1002/joa3.12311. eCollection 2020 Apr.
Focal impulse and rotor modulation (FIRM) can cause slowing, organization, and occasionally termination of atrial fibrillation (AF), although results have been mixed. To further characterize changes in AF during rotor ablation, we quantified morphologic and temporal activation changes following FIRM.
In patients undergoing FIRM ablation for AF, we retrospectively analyzed coronary sinus bipolar EGMs before and after rotor ablation, including EGM activation frequency and regularity, dominant frequency (DF), and organizational index (OI). Changes in EGM waveform morphology were determined with recurrence quantification analysis (RQA) consisting of recurrence rate (RR), determinism (DET), laminarity (LAM), average diagonal line length (L), and trapping time (TT) using Wilcoxon signed-rank testing.
Overall, 36 rotors from 21 patients undergoing FIRM ablation were analyzed. All morphology RQA parameters demonstrated significant organization of atrial activation after rotor ablation (RR = .03, DET = .005, LAM = .03, L = .005, TT = .009). The organizational index also showed a significant increase after rotor ablation ( = .01), and the change in OI correlated with changes in all morphology parameters. Of the rotors, 14/36 (39%) rotors showed organizational changes in all morphology parameters and OI, and an additional 5 rotors (19/36, 53%) showed organizational changes in 4 of 5 morphology parameters and OI.
Coronary sinus EGM waveform morphologies and activation patterns are significantly altered after FIRM ablation even when there is no fibrillatory slowing. RQA morphology analysis and organizational index may impart important information regarding underlying AF organization and may be useful in quantifying the acute response to ablation.
尽管结果不一,但局灶性冲动与转子调制(FIRM)可导致心房颤动(AF)减慢、规整化,偶尔还能终止AF。为进一步明确转子消融过程中AF的变化,我们对FIRM后形态学和时间激活变化进行了量化。
在接受FIRM消融治疗AF的患者中,我们回顾性分析了转子消融前后冠状窦双极心内电图(EGM),包括EGM激活频率和规整性、主导频率(DF)和规整化指数(OI)。使用Wilcoxon符号秩检验,通过由复发率(RR)、确定性(DET)、层流性(LAM)、平均对角线长度(L)和捕获时间(TT)组成的复发量化分析(RQA)来确定EGM波形形态的变化。
总体而言,分析了21例接受FIRM消融患者的36个转子。所有形态学RQA参数均显示转子消融后心房激活明显规整化(RR = 0.03,DET = 0.005,LAM = 0.03,L = 0.005,TT = 0.009)。规整化指数在转子消融后也显著增加(P = 0.01),且OI的变化与所有形态学参数的变化相关。在这些转子中,14/36(39%)个转子在所有形态学参数和OI上均显示出规整化变化,另外5个转子(19/36,53%)在5个形态学参数中的4个和OI上显示出规整化变化。
即使在没有颤动减慢的情况下,FIRM消融后冠状窦EGM波形形态和激活模式也会发生显著改变。RQA形态学分析和规整化指数可能会提供有关潜在AF规整化的重要信息,并可能有助于量化消融的急性反应。