Goff Ryan P, Bersie Stephanie M, Iaizzo Paul A
Department of Biomedical Engineering; Department of Surgery.
Department of Genetics, Cell Biology and Development.
Heart Rhythm. 2014 Oct;11(10):1779-84. doi: 10.1016/j.hrthm.2014.06.022. Epub 2014 Jun 18.
Phrenic nerve injury, both left and right, is considered a significant complication of cryoballoon ablation for treatment of drug-refractory atrial fibrillation, and functional recovery of the phrenic nerve can take anywhere from hours to months.
The purpose of this study was to focus on short periods of cooling to determine the minimal amount of cooling that may terminate nerve function related to cryo ablation.
Left and/or right phrenic nerves were dissected from the pericardium and connective tissue of swine (n = 35 preparations). Nerves were placed in a recording chamber modified with a thermocouple array. This apparatus was placed in a digital water bath to maintain an internal chamber temperature of 37°C. Nerves were stimulated proximally with a 1-V, 0.1-ms square wave. Bipolar compound action potentials were recorded proximal and distal to the site of ablation both before and after ablation, then analyzed to determine changes in latency, amplitude, and duration. Temperatures were recorded at a rate of 5 Hz, and maximum cooling rates were calculated.
Phrenic nerves were found to elicit compound action potentials upon stimulation for periods up to 4 hours minimum. Average conduction velocity was 56.7 ± 14.7 m/s preablation and 49.8 ± 16.6 m/s postablation (P = .17). Cooling to mild subzero temperatures ceased production of action potentials for >1 hour.
Taking into account the data presented here, previous publications, and a conservative stance, during cryotherapy applications, cooling of the nerve to below 4°C should be avoided whenever possible.
双侧膈神经损伤被认为是冷冻球囊消融治疗药物难治性心房颤动的一种严重并发症,膈神经功能恢复可能需要数小时至数月不等。
本研究旨在关注短时间冷却,以确定可能终止与冷冻消融相关神经功能的最小冷却量。
从猪的心包和结缔组织中分离出左侧和/或右侧膈神经(共35个标本)。将神经置于装有热电偶阵列的记录室中。该装置置于数字水浴中以维持室内温度为37°C。神经在近端用1V、0.1ms方波刺激。在消融前后记录消融部位近端和远端的双极复合动作电位,然后分析以确定潜伏期、振幅和持续时间的变化。以5Hz的速率记录温度,并计算最大冷却速率。
发现膈神经在刺激后至少4小时内可引发复合动作电位。消融前平均传导速度为56.7±14.7m/s,消融后为49.8±16.6m/s(P = 0.17)。冷却至轻度零下温度会使动作电位停止产生超过1小时。
考虑到此处呈现的数据、以往的出版物以及保守的立场,在冷冻治疗应用中,应尽可能避免将神经冷却至4°C以下。
