Submyocardial Pacing Threshold Distribution During Cold Saline Application; Exploring Reversible Arrhythmia Inhibition.

IF 1.7 4区 医学 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS
Pace-Pacing and Clinical Electrophysiology Pub Date : 2024-12-01 Epub Date: 2024-11-16 DOI:10.1111/pace.15104
Osamu Saitoh, Takumi Kasai, Ayaka Oikawa, Yuki Hasegawa, Sou Otsuki, Minoru Tagawa, Hiroshi Furushima, Takayuki Inomata, Masaomi Chinushi
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引用次数: 0

Abstract

Introduction: Cold saline application through an irrigation catheter may induce reversible inhibition of submyocardial excitation, which may be used to identify in advance an ideal site for radiofrequency (RF) energy delivery around delicate areas.

Methods: An open irrigation catheter was positioned vertically or parallel with 10-g contact on coronary perfusing porcine hearts and the contacted myocardium was cooled by cold saline at 4°C (20 mL/min). A temperature electrode was inserted 2 mm below the myocardial surface (intra-myocardial temperature at approximately 2 mm below the surface [Temp-BS]). Pacing threshold inside the ventricular wall was measured using an eight-pole electrode plunge needle inserted 5-8 mm close to the ablation catheter, and percent increase of the pacing threshold by the cold saline application (%increase-PT) was calculated.

Results: During cooling, pacing at 10 V from the myocardial surface interrupted constant capture in 7/10 experiments in vertical and in 9/10 experiments in parallel ablation catheter contact. Minimum Temp-BS was not different in both catheter contact positions (25.9 ± 4.0°C in vertical vs. 25.4 ± 2.6°C in parallel). Large % increase-PT on the surface myocardium decreased as the myocardial depth became deeper, and > 150% increase was at a depth approximately 2-3 mm from the surface and > 120% increase around 6-7 mm from the surface. After cessation of cold saline application, the increased %increase-PT recovered to the pre-cooling values.

Conclusions: Cold saline application through an irrigation catheter reversibly inhibited submyocardial excitation. This simple method may have the potential to pre-determine the ideal ablation site in sensitive areas of the heart, although further studies and technological adjustments are required before clinical use.

应用冷盐水时的心肌下起搏阈值分布;探索可逆性心律失常抑制。
简介:通过灌注导管应用冷生理盐水可引起心肌下兴奋的可逆性抑制,这可用于提前确定微妙区域周围射频(RF)能量传递的理想部位:方法:将开放式灌注导管垂直或平行放置在冠状动脉灌注的猪心肌上,并与 10 g 接触,然后用 4°C 的冷生理盐水(20 mL/分钟)冷却接触的心肌。温度电极插入心肌表面下 2 毫米处(心肌表面下约 2 毫米处的心肌内温度 [Temp-BS])。使用插入消融导管附近 5-8 毫米处的八极电极针测量心室壁内的起搏阈值,并计算应用冷盐水后起搏阈值增加的百分比(%increase-PT):结果:在冷却过程中,从心肌表面以 10 V 的电压起搏时,垂直消融导管接触的 7/10 次实验和平行消融导管接触的 9/10 次实验中断了恒定捕获。两种导管接触位置的最低温度-BS 没有差异(垂直位置为 25.9 ± 4.0°C ,平行位置为 25.4 ± 2.6°C)。随着心肌深度的加深,表层心肌上的温度升高百分比也随之降低,距表层约 2-3 毫米处的温度升高百分比大于 150%,距表层约 6-7 毫米处的温度升高百分比大于 120%。停止使用冷盐水后,增加的百分比-PT 恢复到冷却前的值:结论:通过灌注导管应用冷盐水可逆地抑制心肌下兴奋。这种简单的方法有可能预先确定心脏敏感区域的理想消融部位,但在临床应用前还需要进一步的研究和技术调整。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Pace-Pacing and Clinical Electrophysiology
Pace-Pacing and Clinical Electrophysiology 医学-工程:生物医学
CiteScore
2.70
自引率
5.60%
发文量
209
审稿时长
2-4 weeks
期刊介绍: Pacing and Clinical Electrophysiology (PACE) is the foremost peer-reviewed journal in the field of pacing and implantable cardioversion defibrillation, publishing over 50% of all English language articles in its field, featuring original, review, and didactic papers, and case reports related to daily practice. Articles also include editorials, book reviews, Musings on humane topics relevant to medical practice, electrophysiology (EP) rounds, device rounds, and information concerning the quality of devices used in the practice of the specialty.
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