Volumetric lesion analysis and validation of various bipolar configurations in radiofrequency ablation of ventricular myocardium in a bovine model.

IF 2.1 4区 医学 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS
Saikiran Kakarla, UmaShankar Pr, Sabari Saravanan, Narayanan Namboodiri
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引用次数: 0

Abstract

Background: The bipolar radiofrequency ablation(B-RFA) strategy was increasingly used to target deep intramural re-entrant foci responsible for the arrhythmia not ablated by conventional unipolar RFA / sequential unipolar RFA. Lesional characteristics of various bipolar configurations were largely unknown.

Objective: To investigate the lesional geometry in relation to various factors to determine the most effective ablation strategy that minimises steam pops and achieves transmurality. To assess the temperatures at the return electrode.

Methods: A custom-made validated ex-vivo bipolar ablation model was used to assess lesion formation. The myocardial sample was placed between two ablation catheters in four different orientations. Lesions were created using different power (30 W, 40 W, 50 W) and time settings(30, 40 and 50 s) with different catheter orientations. Data was analysed using binary logistic regression and multiple linear regression.

Results: Among 107 lesions, The volume of the active catheter lesion (266 +/- 137 mm^3) significantly differed from their return electrode counterparts (130 +/- 91.8 mm^3) (p < 0.001), and the temperatures at the return electrode end were lower than at the active electrode (p = 0.004). Higher power and longer duration application led to more frequent steam pops (p < 0.001), while true parallel configuration resulted in fewer steam pops (p < 0.001).

Conclusion: A custom model without ground electrode temperature monitoring is safe and cost-effective. The safest strategy is a true parallel configuration with an inter-electrode distance of at least 15 mm and a power of 30 W to 40 W, which generates lower steam pops and better transmurality.

在牛模型中对射频消融心室心肌的各种双极配置进行容积病灶分析和验证。
背景:双极射频消融(B-RFA)策略越来越多地被用于针对传统单极射频消融(RFA)或序贯单极射频消融(RFA)无法消融的导致心律失常的深部室内再电位病灶。各种双极配置的病变特征在很大程度上是未知的:研究病变几何形状与各种因素的关系,以确定最有效的消融策略,最大限度地减少蒸汽爆裂并实现透射性。评估回流电极的温度:使用定制的经验证的体外双极消融模型来评估病变的形成。心肌样本以四个不同的方向放置在两个消融导管之间。使用不同的功率(30 瓦、40 瓦、50 瓦)和时间设置(30 秒、40 秒和 50 秒)以及不同的导管方向形成病变。数据采用二元逻辑回归和多元线性回归进行分析:在 107 个病灶中,主动导管病灶的体积(266 +/- 137 mm^3)与回流电极病灶的体积(130 +/- 91.8 mm^3)有显著差异(p):无接地电极温度监测的定制模型既安全又经济。最安全的策略是采用真正的平行配置,电极间距至少为 15 mm,功率为 30 W 至 40 W,这样可产生较低的蒸汽爆裂和更好的透射性。
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来源期刊
CiteScore
4.30
自引率
11.10%
发文量
320
审稿时长
4-8 weeks
期刊介绍: The Journal of Interventional Cardiac Electrophysiology is an international publication devoted to fostering research in and development of interventional techniques and therapies for the management of cardiac arrhythmias. It is designed primarily to present original research studies and scholarly scientific reviews of basic and applied science and clinical research in this field. The Journal will adopt a multidisciplinary approach to link physical, experimental, and clinical sciences as applied to the development of and practice in interventional electrophysiology. The Journal will examine techniques ranging from molecular, chemical and pharmacologic therapies to device and ablation technology. Accordingly, original research in clinical, epidemiologic and basic science arenas will be considered for publication. Applied engineering or physical science studies pertaining to interventional electrophysiology will be encouraged. The Journal is committed to providing comprehensive and detailed treatment of major interventional therapies and innovative techniques in a structured and clinically relevant manner. It is directed at clinical practitioners and investigators in the rapidly growing field of interventional electrophysiology. The editorial staff and board reflect this bias and include noted international experts in this area with a wealth of expertise in basic and clinical investigation. Peer review of all submissions, conflict of interest guidelines and periodic editorial board review of all Journal policies have been established.
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