Sakamoto Shun-ichiro, Fujii Masahiro, Watanabe Yoshiyuki, Hiromoto Atsushi, Ishii Yosuke, Morota Tetsuro, Nitta Takashi
Department of Cardiovascular Surgery, Nippon Medical School, Tokyo, Japan.
Department of Cardiovascular Surgery, Nippon Medical School, Tokyo, Japan.
Ann Thorac Surg. 2014 Nov;98(5):1598-604. doi: 10.1016/j.athoracsur.2014.06.044. Epub 2014 Sep 8.
Ganglionated plexi ablation during atrial fibrillation surgery is not technically standardized for precise ganglionated plexi locations or ablation sequence. We aimed to identify precise active ganglionated plexi locations in patients with structural heart disease and explore the feasibility of anatomic ganglionated plexi ablation without prior mapping in patients with atrial fibrillation.
Thirty patients with valvular disease-associated atrial fibrillation underwent ganglionated plexi ablation and a modified maze procedure. In 20 patients, ganglionated plexi mapping was performed to identify active plexi. According to mapping results, anatomically determined plexi were ablated without mapping in the final 10 patients. Ganglionated plexi ablation outcomes with and without prior mapping were compared between perioperative and early postoperative periods.
Active ganglionated plexi common to more than 20% of patients were identified in the superior and inferior right pulmonary veins, superior left pulmonary vein, interatrial groove, and inferior left atrium. Inferior left atrial plexi ablation resulted in maximum vagal modulation. Compared with ablation using mapping, anatomic ablation yielded more vagal modulation in heart rate variability and decreased the requisite cardiopulmonary bypass time.
The sequential pacing and ablation technique identified an optimal ablation sequence that best ensured vagal reflex elimination from all ganglionated plexi. Anatomic ablation using a predetermined ganglionated plexi map may be a viable alternative to individual plexus mapping before ablation.
在心房颤动手术期间,神经节丛消融在技术上对于精确的神经节丛位置或消融顺序尚未标准化。我们旨在确定患有结构性心脏病患者中精确的活性神经节丛位置,并探讨在心房颤动患者中不进行预先标测而进行解剖学神经节丛消融的可行性。
30例瓣膜病相关性心房颤动患者接受了神经节丛消融和改良迷宫手术。20例患者进行了神经节丛标测以识别活性神经丛。根据标测结果,在最后10例患者中未进行标测而对解剖学确定的神经丛进行消融。比较了围手术期和术后早期有或没有预先标测的神经节丛消融结果。
在右上和右下肺静脉、左上肺静脉、房间沟和左心房下部识别出超过20%患者共有的活性神经节丛。左心房下部神经丛消融导致最大的迷走神经调节。与使用标测进行的消融相比,解剖学消融在心率变异性方面产生了更多的迷走神经调节,并减少了所需的体外循环时间。
顺序起搏和消融技术确定了一种最佳消融顺序,该顺序能最好地确保消除所有神经节丛的迷走反射。使用预先确定的神经节丛图谱进行解剖学消融可能是消融前对单个神经丛进行标测的一种可行替代方法。
