Electrophysiology Section, Cardiovascular Division, Hospital of the University of Pennsylvania, Philadelphia, Pennsylvania.
Electrophysiology Section, Cardiovascular Division, Hospital of the University of Pennsylvania, Philadelphia, Pennsylvania.
JACC Clin Electrophysiol. 2019 Jan;5(1):28-38. doi: 10.1016/j.jacep.2018.08.008. Epub 2018 Sep 26.
This study sought to investigate the substrate, procedural strategies, safety, and outcomes of catheter ablation (CA) for ventricular tachycardia (VT) in patients with aortic valve replacement (AVR).
VT ablation in patients with AVR is challenging, particularly when mapping and ablation in the periaortic region are necessary.
We identified consecutive patients with mechanical, bioprosthetic, and transcatheter AVR who underwent CA for VT refractory to antiarrhythmic drugs and analyzed VT substrate, approach to LV access, complications, and long-term outcomes.
Overall, 29 patients (87% men, mean age 67.9 ± 9.8 years, left ventricular ejection fraction 39 ± 10%) with prior AVR (13 mechanical, 15 bioprosthetic, 1 transcatheter AVR) underwent 40 ablations from 2004 to 2016. Left-sided mapping/CA was performed in 27 patients (36 procedures). Access was retrograde aortic in 11 procedures (all bioprosthetic), transseptal in 24 (13 mechanical; 10 bioprosthetic; 1 transcatheter AVR), or transventricular septal in 1. Periaortic bipolar or unipolar scar was detected in all 24 patients in whom detailed periaortic mapping was performed. Clinical VT circuit(s) involved the periaortic region in 10 patients (34%), 2 (7%) had bundle branch re-entry VT, and 17 (59%) had substrate unrelated to AVR. There were 2 major complications (both related to vascular access). Only 2 patients (9.1%) had VT recurrence. Over median follow-up of 12.8 months, 11 patients died (none as a result of recurrent VT).
Whereas most patients undergoing CA for VT after AVR had VT from substrate unrelated to AVR, periaortic scar is universally present and bundle branch re-entry can be the VT mechanism. CA can be safely performed with excellent long-term VT elimination.
本研究旨在探讨主动脉瓣置换(AVR)患者室性心动过速(VT)导管消融(CA)的基质、程序策略、安全性和结果。
AVR 患者的 VT 消融具有挑战性,特别是当需要在主动脉周围区域进行标测和消融时。
我们确定了连续接受机械、生物假体和经导管 AVR 的 VT 患者,这些患者对抗心律失常药物难治,并分析了 VT 基质、LV 进入途径、并发症和长期结果。
总体而言,29 名患者(87%为男性,平均年龄 67.9±9.8 岁,左心室射血分数 39±10%)在 2004 年至 2016 年期间因 VT 进行了 40 次消融,这些患者曾接受过 AVR(13 例机械性,15 例生物假体,1 例经导管 AVR)。27 例患者(36 例)进行了左侧标测/CA。11 例(均为生物假体)采用逆行主动脉途径,24 例(13 例机械性;10 例生物假体;1 例经导管 AVR)采用经间隔途径,1 例采用经心室间隔途径。在所有详细进行主动脉周围标测的 24 例患者中,均发现主动脉周围双极或单极瘢痕。10 例患者(34%)的临床 VT 回路涉及主动脉周围区域,2 例(7%)为束支折返性 VT,17 例(59%)的基质与 AVR 无关。有 2 例主要并发症(均与血管入路有关)。仅 2 例患者(9.1%)出现 VT 复发。在中位随访 12.8 个月期间,11 例患者死亡(均非 VT 复发所致)。
虽然大多数接受 AVR 后 VT 进行 CA 的患者的 VT 源自与 AVR 无关的基质,但主动脉周围瘢痕普遍存在,束支折返可成为 VT 机制。CA 可以安全进行,具有出色的长期 VT 消除效果。
