使用纳秒级脉冲电场消融心肌:可行性、安全性和耐久性的临床前评估。
Ablating Myocardium Using Nanosecond Pulsed Electric Fields: Preclinical Assessment of Feasibility, Safety, and Durability.
机构信息
Helmsley Electrophysiology Center (M.N., K.W., I.K., V.Y.R., J.S.K.), Icahn School of Medicine at Mount Sinai, New York.
Department of Cardiology, University Medical Center Hamburg-Eppendorf, Germany (M.N.).
出版信息
Circ Arrhythm Electrophysiol. 2024 Jul;17(7):e012854. doi: 10.1161/CIRCEP.124.012854. Epub 2024 May 17.
BACKGROUND
Unlike conventional microsecond pulsed electrical fields that primarily target the cell membranes, nanosecond pulses are thought to primarily electroporate intracellular organelles. We conducted a comprehensive preclinical assessment of catheter-based endocardial nanosecond pulsed field ablation in swine.
METHODS
A novel endocardial nanosecond pulsed field ablation system was evaluated in a total of 25 swine. Using either a low-dose (5-second duration) or high-dose (15-second duration) strategy, thoracic veins and discrete atrial and ventricular sites were ablated. Predetermined survival periods were <1 (n=1), ≈2 (n=7), ≈7 (n=6), 14 (n=2), or ≈28 (n=9) days, and venous isolation was assessed before euthanasia. Safety assessments included evaluation of esophageal effects, phrenic nerve function, and changes in venous caliber. All tissues were subject to careful gross pathological and histopathologic examination.
RESULTS
All (100%) veins (13 low-dose, 34 high-dose) were acutely isolated, and all reassessed veins (6 low-dose, 15 high-dose) were durably isolated. All examined vein lesions (10 low-dose, 22 high-dose) were transmural. Vein diameters (n=15) were not significantly changed. Of the animals assessed for phrenic palsy (n=9), 3 (33%) demonstrated only transient palsy. There were no differences between dosing strategies. Thirteen mitral isthmus lesions were analyzed, and all 13 (100%) were transmural (depth, 6.4±0.4 mm). Ventricular lesions were 14.7±4.5 mm wide and 7.1±1.3 mm deep, with high-dose lesions deeper than low-dose (7.9±1.2 versus 6.2±0.8 mm; =0.007). The esophagus revealed nontransmural adventitial surface lesions in 5 of 5 (100%) animals euthanized early (2 days) post-ablation. In the 10 animals euthanized later (14-28 days), all animals demonstrated significant esophageal healing-8 with complete resolution, and 2 with only trace fibrosis.
CONCLUSIONS
A novel, endocardial nanosecond pulsed field ablation system provides acute and durable venous isolation and linear lesions. Transient phrenic injury and nontransmural esophageal lesions can occur with worst-case assessments suggesting limits to pulsed field ablation tissue selectivity and the need for dedicated assessments during clinical studies.
背景
与主要针对细胞膜的传统微秒级脉冲电场不同,纳秒级脉冲被认为主要使细胞内细胞器穿孔。我们对猪心内膜纳秒级脉冲场消融的基于导管的方法进行了全面的临床前评估。
方法
共对 25 头猪进行了新型心内膜纳秒级脉冲场消融系统的评估。使用低剂量(5 秒持续时间)或高剂量(15 秒持续时间)策略,消融胸静脉和离散的心房和心室部位。预定的存活期为<1(n=1)、≈2(n=7)、≈7(n=6)、14(n=2)或≈28(n=9)天,在安乐死前评估静脉隔离。安全性评估包括食管效应、膈神经功能和静脉口径变化的评估。所有组织均进行了仔细的大体病理和组织病理学检查。
结果
所有(100%)静脉(13 例低剂量,34 例高剂量)均被急性隔离,所有重新评估的静脉(6 例低剂量,15 例高剂量)均持久隔离。所有检查的静脉病变(10 例低剂量,22 例高剂量)均为贯穿性。静脉直径(n=15)无显著变化。评估膈神经麻痹的动物(n=9)中,3 例(33%)仅表现为一过性麻痹。两种剂量方案之间无差异。对 13 例二尖瓣峡部病变进行了分析,所有 13 例(100%)均为贯穿性(深度 6.4±0.4mm)。心室病变宽度为 14.7±4.5mm,深度为 7.1±1.3mm,高剂量病变比低剂量病变深(7.9±1.2 与 6.2±0.8mm;=0.007)。在 5 例(100%)早期(消融后 2 天)安乐死的动物的食管中发现了非贯穿性的外膜表面病变。在 10 例晚期(14-28 天)安乐死的动物中,所有动物的食管均有明显愈合-8 例完全缓解,2 例仅有微量纤维化。
结论
新型心内膜纳秒级脉冲场消融系统可提供急性和持久的静脉隔离和线性病变。短暂性膈神经损伤和非贯穿性食管病变可能发生,最坏情况评估表明脉冲场消融的组织选择性存在局限性,在临床研究中需要进行专门评估。
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