Kumar Saurabh, Chan Martin, Lee Justin, Wong Michael C G, Yudi Matias, Morton Joseph B, Spence Steven J, Halloran Karen, Kistler Peter M, Kalman Jonathan M
Department of Cardiology, Parkville, Victoria, Australia; Department of Medicine, The Royal Melbourne Hospital, University of Melbourne, Parkville, Victoria, Australia.
J Cardiovasc Electrophysiol. 2014 Feb;25(2):122-9. doi: 10.1111/jce.12293. Epub 2013 Oct 11.
Electrogram (EGM) characteristics are used to infer catheter-tissue contact. We examined if (a) atrial EGM characteristics predicted CF and (b) compared the value of CF versus other surrogates for predicting lesion efficacy.
Twelve paroxysmal AF patients underwent pulmonary vein isolation using radiofrequency (RF) ablation facilitated by a novel CF-sensing catheter. Operators were blinded to CF. EGM amplitude, width, and morphology were measured pre- and post-RF. At each RF site, average CF, force-time integral (FTI), impedance fall, time to impedance plateau, maximum power, catheter tip temperature, and total energy delivered were recorded. An effective lesion was defined based on previously validated EGM criteria for transmural lesions. There was a moderate correlation between CF and EGM amplitude (r = 0.19) and EGM width (r = -0.22). Pre-RF, EGM amplitude, and width had modest to poor discriminative capacity for identifying preablation CF (e.g., EGM amplitude identified CF>20 g with sensitivity and specificity of 67% and 60%, respectively). Preablation CF, FTI, and total energy delivered during RF were the only independent predictors of effective lesion formation. Neither pre-RF EGM amplitude/width nor power, temperature, and impedance changes during RF predicted effective lesion formation. An average CF >16 g or FTI >404 g*s had excellent sensitivity and specificity (>80%) for identifying an effective lesion.
EGM characteristics do not reliably predict either CF before the onset of RF, nor do they predict the likelihood of an effective lesion. CF parameters were superior to power, temperature, and impedance changes during RF in predicting lesion efficacy.
电图(EGM)特征用于推断导管与组织的接触情况。我们研究了(a)心房EGM特征是否能预测接触力(CF),以及(b)比较CF与其他替代指标在预测损伤效果方面的价值。
12例阵发性房颤患者使用新型CF感知导管辅助进行射频(RF)消融以实现肺静脉隔离。操作人员对CF情况不知情。在RF前后测量EGM的振幅、宽度和形态。在每个RF位点,记录平均CF、力-时间积分(FTI)、阻抗下降、达到阻抗平台的时间、最大功率、导管尖端温度以及输送的总能量。根据先前验证的用于透壁损伤的EGM标准定义有效损伤。CF与EGM振幅(r = 0.19)和EGM宽度(r = -0.22)之间存在中度相关性。在RF前,EGM振幅和宽度对识别消融前CF的判别能力中等至较差(例如,EGM振幅识别CF>20 g时,敏感性和特异性分别为67%和60%)。消融前CF、FTI以及RF期间输送的总能量是有效损伤形成的唯一独立预测因素。RF前的EGM振幅/宽度以及RF期间的功率、温度和阻抗变化均不能预测有效损伤形成。平均CF>16 g或FTI>404 g*s在识别有效损伤方面具有出色的敏感性和特异性(>80%)。
EGM特征在RF开始前不能可靠地预测CF,也不能预测有效损伤的可能性。在预测损伤效果方面,CF参数优于RF期间的功率、温度和阻抗变化。
