Moreno Javier, Quintanilla Jorge G, Molina-Morúa Roberto, García-Torrent María Jesús, Angulo-Hernández María José, Curiel-Llamazares Carolina, Ramiro-Bargueño Julio, González Pablo, Caamaño Antonio J, Pérez-Castellano Nicasio, Rojo-Álvarez José Luis, Macaya Carlos, Pérez-Villacastín Julián
Optical and Thermal Mapping Laboratory, Arrhythmia Unit, Cardiovascular Institute, IdISSC, Hospital Clínico San Carlos, Madrid, Spain; Arrhythmia Unit, Cardiology Department, Hospital Ramón y Cajal, Madrid, Spain.
J Cardiovasc Electrophysiol. 2014 Dec;25(12):1391-9. doi: 10.1111/jce.12528. Epub 2014 Sep 14.
New generation open-irrigated catheters aim to improve irrigation efficiency. This may change lesion patterns, challenging operators. Indeed, safety issues have recently arisen. We aimed to experimentally assess 4 open-irrigated catheters, comparing lesion size, safety, and heat transfer.
The thigh lesion model was employed in 6 anesthetized pigs to assess the morphology of perpendicular and tangential lesions (n = 140) created by the newer catheters ThermoCool® SF, CoolFlex™, and Blazer™ Open-Irrigated, and the standard ThermoCool®, at a constant power of 30 W (60 seconds). To evaluate the propensity for deep-tissue overheating, a set of 120 applications were performed at 50 W (180 seconds) comparing pop rates. Thermal assessment of the lesion generation process (20 W, 60 seconds, n = 32) was performed with an infrared camera on bovine ventricular tissue.
At 30 W, the newer catheters showed lower temperature readings compared with the ThermoCool®. No major efficacy or safety differences were found at tangential applications; however, at perpendicular applications: (1) the SF at 17 mL/min better preserved the superficial layers and focused its maximum thermal effect deeper, but at recommended flow rates (8 mL/min) it generated the largest superficial lesions; (2) CoolFlex™ created smaller lesions than SF and readily induced steam pops at 50 W without temperature control; and (3) no major differences were found comparing Blazer™ Open-Irrigated and ThermoCool®.
The lower temperature readings in the newer catheters make them more prone to deliver the maximum programmed power. Under experimental conditions, the SF catheter focuses its maximum effect deeper and the CoolFlex™ can be more prone to induce steam pops at high power settings.
新一代开放式灌注导管旨在提高灌注效率。这可能会改变病变模式,给操作人员带来挑战。事实上,最近出现了安全问题。我们旨在通过实验评估4种开放式灌注导管,比较病变大小、安全性和热传递情况。
在6只麻醉猪身上采用大腿病变模型,以评估新型导管ThermoCool® SF、CoolFlex™和Blazer™ Open-Irrigated以及标准的ThermoCool®在30瓦恒定功率(60秒)下产生的垂直和切线病变的形态(n = 140)。为评估深部组织过热的倾向,在50瓦(180秒)下进行了一组120次应用,比较弹出率。使用红外摄像机对牛心室组织进行病变产生过程的热评估(20瓦,60秒,n = 32)。
在30瓦时,新型导管的温度读数低于ThermoCool®。在切线应用中未发现主要的疗效或安全性差异;然而,在垂直应用中:(1)SF在17毫升/分钟时能更好地保留表层,并将其最大热效应集中在更深层,但在推荐流速(8毫升/分钟)时会产生最大的表层病变;(2)CoolFlex™产生的病变比SF小,并且在50瓦且无温度控制的情况下容易引发蒸汽弹出;(3)比较Blazer™ Open-Irrigated和ThermoCool®未发现主要差异。
新型导管较低的温度读数使其更易于输送最大程控功率。在实验条件下,SF导管将其最大效应集中在更深层,而CoolFlex™在高功率设置下更容易引发蒸汽弹出。
