IHU LIRYC, Electrophysiology and Heart Modeling Institute, Fondation Bordeaux Université, Pessac-Bordeaux, France.
CHU Bordeaux, University of Bordeaux, Bordeaux, France.
J Cardiovasc Electrophysiol. 2020 Nov;31(11):2836-2845. doi: 10.1111/jce.14709. Epub 2020 Aug 13.
Radiofrequency (RF) power is routinely considered during RF application. In contrast, impedance has been relatively poorly studied, despite also influencing RF lesion creation. The aim of this study was to examine the influence of electric impedance on RF lesion characteristics and on clinical RF ablation parameters.
In the first part of the study, power and impedance were systematically varied and the resulting current was calculated using custom-made software. In the second part of the study, ablation lesions (n = 40) were analyzed in a porcine ex vivo model. RF applications were delivered in cardiac muscle preparations with systematically varied values of electric impedance using a contact force ablation catheter. In the third part of the study, n = 3378 clinical RF applications were analyzed, power, impedance, and current data were exported and correlated with clinical patient data. 20 ± 3 W/80 Ω, 30 ± 3 W/120 Ω, 40 ± 3 W/160 Ω, and 50 ± 3 W/200 Ω RF applications resulted in 498 ± 40, 499 ± 26, 500 ± 20, and 500 ± 16 mA RF current, which were not significantly different (p = .32). Ablation lesions were significantly different in depth and diameter when applied with the same power but different impedances (p < .01); lesion sizes decreased when increasing impedance. In clinical data, a large range of delivered current (e.g., 39-40 W: 530-754 mA) was measured, due to variations in impedance.
RF lesion creation is determined by current rather than by power. During clinical RF ablation procedures, impedance significantly influences current delivery and varies considerably between patients. Impedance and current are clinically relevant parameters that should be considered during RF ablation.
在射频(RF)应用中,通常会考虑射频功率。相比之下,尽管阻抗也会影响 RF 损伤的形成,但它的研究相对较少。本研究的目的是研究阻抗对 RF 损伤特征和临床 RF 消融参数的影响。
在研究的第一部分中,我们系统地改变功率和阻抗,并使用定制软件计算产生的电流。在研究的第二部分中,我们在猪离体模型中分析了消融损伤。使用接触力消融导管,在心肌标本中,系统地改变电阻抗值,进行 RF 应用。在研究的第三部分中,我们分析了 3378 例临床 RF 应用,导出了功率、阻抗和电流数据,并与临床患者数据相关联。20±3W/80Ω、30±3W/120Ω、40±3W/160Ω和 50±3W/200Ω 的 RF 应用分别产生 498±40、499±26、500±20 和 500±16mA 的 RF 电流,差异无统计学意义(p=0.32)。当施加相同功率但不同阻抗时,消融损伤的深度和直径有显著差异(p<0.01);随着阻抗的增加,损伤尺寸减小。在临床数据中,由于阻抗的变化,测量到的输送电流范围很大(例如,39-40W:530-754mA)。
RF 损伤的形成取决于电流而不是功率。在临床 RF 消融过程中,阻抗会显著影响电流输送,并且在患者之间差异很大。阻抗和电流是临床相关的参数,在 RF 消融过程中应予以考虑。
