Department of Cardiology, Kerckhoff Heart and Thorax Centre, Benekestrasse 2-8, 61231 Bad Nauheim, Germany.
Cardiovascular Division, Heart Rhythm Management Center, UZ Brussels, Brussels, Belgium.
Europace. 2017 Jul 1;19(7):1109-1115. doi: 10.1093/europace/euw146.
Although the generation of linear lesions by ablation improves success rates in patients with persistent atrial fibrillation (AF), the procedure has been considered unsuitable for cryoablation balloon catheter technologies. We developed a technique for linear ablations, using second-generation cryoballoon technology.
This was a single-arm, prospective study in 76 patients with persistent AF treated consecutively at our centre. Cryoablation was performed using a 28 mm second-generation cryoballoon. The first cryoenergy application was performed in close proximity to the position during isolation of the left superior pulmonary vein (PV). Sequential overlapping freezes were applied along the left atrial (LA) roof by slight clockwise rotation of the sheath in combination with slight retraction of the sheath and incremental advancement of the cryoballoon, until reaching the original position for right superior PV isolation. The acute endpoint was the creation of a roofline, defined as complete conduction block across the LA roof >120 ms and ascending activation across the posterior LA wall. Acute success in roofline generation was achieved in 88% of patients, applying on average five (median 4-6) freezes with nadir temperature of -40°C (-36 to -44°C). In five patients, conduction block could not be achieved. No phrenic nerve injuries occurred during roofline generation.
Generation of linear roofline lesions is possible with the second-generation cryoballoon. The technique can be used in combination with PV isolation to treat persistent AF with good acute success rates, short procedure times, and acceptable safety concerns. If validated by further studies, the method would be an appealing alternative to radiofrequency ablation techniques.
尽管消融术产生的线性病变可提高持续性心房颤动(AF)患者的成功率,但该手术被认为不适合冷冻球囊导管技术。我们开发了一种使用第二代冷冻球囊技术进行线性消融的技术。
这是一项单臂、前瞻性研究,共纳入了 76 名在我们中心连续治疗的持续性 AF 患者。使用 28mm 第二代冷冻球囊进行冷冻消融。第一次冷冻能量应用是在左肺上静脉(PV)隔离时的位置附近进行的。通过鞘管轻微顺时针旋转,同时轻微缩回鞘管和逐步推进冷冻球囊,沿左心房(LA)顶部进行连续重叠冷冻,直到达到最初的右肺上静脉隔离位置。急性终点是创建一条房顶线,定义为 LA 房顶的完全传导阻滞>120ms 和后 LA 壁的上升激活。88%的患者实现了房顶线的急性成功,平均应用 5 次(中位数 4-6 次)冷冻,最低温度为-40°C(-36 至-44°C)。在 5 名患者中,无法实现传导阻滞。在房顶线生成过程中没有发生膈神经损伤。
第二代冷冻球囊可实现线性房顶线病变的生成。该技术可与 PV 隔离联合使用,治疗持续性 AF,具有良好的急性成功率、较短的手术时间和可接受的安全性问题。如果进一步的研究验证了该方法,它将成为射频消融技术的一种有吸引力的替代方法。
