Impact of Intrapericardial Fluid on Lesion Size During Epicardial Radiofrequency Ablation: A Computational Study.

IF 2.3 4区医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS

Journal of Cardiovascular Development and Disease Pub Date : 2025-07-24 DOI:10.3390/jcdd12080283

Luis Cuenca-Dacal, Marcela Mercado-Montoya, Tatiana Gómez-Bustamante, Enrique Berjano, Maite Izquierdo, José M Lozano, Juan J Pérez, Ana González-Suárez

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Abstract

Background and aims: Epicardial RFA is often required when ventricular tachyarrhythmias originate from epicardial or subepicardial substrates that cannot be effectively ablated endocardially. Our objective was to evaluate the impact of intrapericardial fluid accumulation on the lesion size in the myocardium and the extent of thermal damage to adjacent structures, particularly the lung.

Methods: An in silico model of epicardial RFA was developed, featuring an irrigated-tip catheter placed horizontally on the epicardium. A 50 W-30 s RF pulse was simulated. Temperature distributions and resultant thermal lesions in both the myocardium and lung were computed.

Results: An increase in pericardial space from 2.5 mm to 4.5 mm resulted in a reduction of myocardial lesion depth by up to 1 mm, while the volume of lung damage decreased from 200 to 300 mm³ to nearly zero, irrespective of myocardial or epicardial fat thickness. Myocardial lesion size was markedly influenced by the thickness of the epicardial fat layer. In the absence of fat and with a narrow pericardial space, lesions reached up to 262 mm³ in volume and 6.1 mm in depth. With 1 mm of fat, lesion volume decreased to below 100 mm³ and depth to 3 mm; with 2 mm, to under 40 mm³ and 2 mm; and with 3 mm, to less than 16 mm³ and 1.2 mm. Lung damage increased moderately with greater fat thickness. Cooling the irrigation fluid from 37 °C to 5 °C reduced lung damage by up to 51%, while myocardial lesion size decreased by only 15%.

Conclusions: Intrapericardial fluid accumulation can limit myocardial lesion formation while protecting adjacent structures. Cooling the irrigation fluid may reduce collateral damage without compromising myocardial lesion depth.

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心外膜射频消融术中心外膜内液体对病灶大小影响的计算研究

背景和目的：当室性心动过速源于心外膜或心外膜下基底而不能在心内膜内有效消融时，通常需要心外膜射频消融。我们的目的是评估心包内积液对心肌损伤大小的影响，以及对邻近结构（尤其是肺）的热损伤程度。方法：建立心外膜RFA的计算机模型，在心外膜上水平放置一根尖端冲洗导管。模拟了一个50 W-30 s的射频脉冲。计算心肌和肺的温度分布和由此产生的热损伤。结果：无论心肌或心外膜脂肪厚度如何，心包间隙从2.5 mm增加到4.5 mm导致心肌损伤深度减少多达1mm，而肺损伤体积从200到300 mm3减少到几乎为零。心外膜脂肪层厚度对心肌损伤大小有显著影响。在无脂肪和心包间隙狭窄的情况下，病变体积可达262 mm3，深度可达6.1 mm。脂肪厚度为1mm时，病变体积减小至100mm3以下，深度减小至3mm；带2毫米，至40毫米以下3和2毫米；并与3毫米，以小于16毫米和1.2毫米。肺损伤随着脂肪厚度的增加而适度增加。将冲洗液从37°C冷却至5°C可减少高达51%的肺损伤，而心肌病变大小仅减少15%。结论：心包内积液可限制心肌病变的形成，同时保护邻近结构。冷却冲洗液可减少附带损伤而不影响心肌损伤深度。

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来源期刊

Journal of Cardiovascular Development and Disease CARDIAC & CARDIOVASCULAR SYSTEMS-

CiteScore

2.60

自引率

12.50%

发文量

381