Pickett Robert A, Owens Kimberly, Landis Penny, Sara Rahmani, Lim Hae W
St. Thomas Research Institute, Nashville, Tennessee.
Medtronic CryoCath, Pointe-Claire, Canada.
J Atr Fibrillation. 2018 Jun 30;11(1):2055. doi: 10.4022/jafib.2055. eCollection 2018 Jun-Jul.
Parameters used to gauge the effectiveness of a cryoballoon lesion have been described that monitor the ablation at the time of balloon-to-pulmonary vein (PV) occlusion, during the cryoablation freeze, and at the thaw phase of the cryoablation. This study examines the balloon-to-PV occlusion step and monitors the completeness of occlusion using capnography to measure end-tidal CO2 (ETCO2). Specifically, the main objective was to determine if ETCO2 measurements can be used to quantify the amount of balloon-to-PV occlusion and to determine if acute ETCO2 parameters could predict long-term freedom from atrial fibrillation (AF).
In a prospective study, 30 subjects were cryoballoon ablated for drug refractory symptomatic paroxysmal AF by pulmonary vein isolation method. During the balloon-to-PV occlusion and throughout the cryoablation, ETCO2 measurements were recorded. The subjects were followed for a 12-month period to monitor their freedom from AF. Five subjects had a recurrence of AF outside of a 90-day blanking period but before the 12-month endpoint. Between the 25 subjects that maintained normal sinus rhythm (NSR) and the 5 subjects that had recurrent AF (rAF), there were no statistical differences in procedural parameters, including: the number of cryoablations per PV, duration of each cryoablation, balloon nadir temperature, or balloon thaw time. Additionally, there were no statistical differences in baseline ETCO2 and in nadir ETCO2 between the two cohorts; however, when examining Δ ETCO2, the subjects in the NSR cohort had a significantly larger change compared to the rAF cohort (P<0.001). The largest change in ETCO2 during balloon-to-PV occlusion was observed during the cryoballoon ablation of the superior PVs; however, Δ ETCO2 did not solely predict long-term freedom from AF for the individual subject.
Δ ETCO2 did tend to be larger in the NSR cohort compared to the rAF cohort; however, ETCO2 monitoring was more responsive in the superior PVs and less useful in the inferior PVs. Moreover, ETCO2 monitoring could not be used as a sole indicator of long-term efficacy. Suggesting that monitoring balloon-to-PV occlusion is a necessary first in cryoballoon ablation, but other parameters must be incorporated and observed as surrogates of a circumferential and transmural lesion formation with long-term durability.
已经描述了用于评估冷冻球囊损伤有效性的参数,这些参数可在球囊至肺静脉(PV)闭塞时、冷冻消融冷冻期间以及冷冻消融解冻阶段监测消融情况。本研究检查球囊至PV闭塞步骤,并使用二氧化碳描记法测量呼气末二氧化碳(ETCO2)来监测闭塞的完整性。具体而言,主要目的是确定ETCO2测量是否可用于量化球囊至PV的闭塞程度,以及确定急性ETCO2参数是否可预测长期无房颤(AF)。
在一项前瞻性研究中,30名受试者通过肺静脉隔离法接受冷冻球囊消融治疗药物难治性症状性阵发性AF。在球囊至PV闭塞期间以及整个冷冻消融过程中,记录ETCO2测量值。对受试者进行为期12个月的随访,以监测其是否发生AF。5名受试者在90天空白期之外但在12个月终点之前出现AF复发。在维持正常窦性心律(NSR)的25名受试者和发生AF复发(rAF)的5名受试者之间,手术参数无统计学差异,包括:每个PV的冷冻消融次数、每次冷冻消融的持续时间、球囊最低点温度或球囊解冻时间。此外,两个队列之间的基线ETCO2和最低点ETCO2也无统计学差异;然而,在检查ΔETCO2时,NSR队列中的受试者与rAF队列相比有显著更大的变化(P<0.001)。在冷冻球囊消融上肺静脉期间观察到球囊至PV闭塞期间ETCO2的最大变化;然而,ΔETCO2并不能单独预测个体受试者的长期无AF情况。
与rAF队列相比,NSR队列中的ΔETCO2确实往往更大;然而,ETCO2监测在上肺静脉中反应更灵敏,在下肺静脉中用处较小。此外,ETCO2监测不能用作长期疗效的唯一指标。这表明监测球囊至PV闭塞是冷冻球囊消融中必要的第一步,但必须纳入并观察其他参数,作为具有长期耐久性的圆周和透壁损伤形成的替代指标。