Dong Jun, Dickfeld Timm, Dalal Darshan, Cheema Aamir, Vasamreddy Chandrasekhar R, Henrikson Charles A, Marine Joseph E, Halperin Henry R, Berger Ronald D, Lima Joao A C, Bluemke David A, Calkins Hugh
Department of Medicine, John Hopkins University School of Medicine, Baltimore, MD 21287-0409, USA.
J Cardiovasc Electrophysiol. 2006 May;17(5):459-66. doi: 10.1111/j.1540-8167.2006.00425.x.
No prior studies have reported the use of integrated electroanatomic mapping with preacquired magnetic resonance/computed tomographic (MR/CT) images to guide catheter ablation of atrial fibrillation (AF) in a series of patients.
Sixteen consecutive patients with drug-refractory AF underwent catheter ablation under the guidance of a three-dimensional (3D) electroanatomic mapping system (Carto, Biosense Webster, Inc., Diamond Bar, CA, USA). Gadolinium-enhanced MR (n = 8) or contrast-enhanced high-resolution CT (n = 8) imaging was performed within 1 day prior to the ablation procedures. Using a novel software package (CartoMerge, Biosense Webster, Inc.), the left atrium (LA) with pulmonary veins (PVs) was segmented and extracted for image registration. The segmented 3D MR/CT LA reconstruction was accurately registered to the real-time mapping space with a combination of landmark registration and surface registration. The registered 3D MR/CT LA reconstruction was successfully used to guide deployment of RF applications encircling the PVs. Upon completion of the circumferential lesions around the PVs, 32% of the PVs were electrically isolated. Guided by a circular mapping catheter, the remaining PVs were disconnected from the LA using a segmental approach. The distance between the surface of the registered 3D MR/CT LA reconstruction and multiple electroanatomic map points was 3.05 +/- 0.41 mm. No complications were observed.
Three-dimensional MR/CT images can be successfully extracted and registered to anatomically guided clinical AF ablations. The display of detailed and accurate anatomic information during the procedure enables tailored RF ablation to individual PV and LA anatomy.
此前尚无研究报道在一系列患者中使用集成电解剖标测与预先获取的磁共振/计算机断层扫描(MR/CT)图像来指导房颤(AF)导管消融。
16例药物难治性房颤患者在三维(3D)电解剖标测系统(Carto,美国加利福尼亚州钻石吧市百盛韦伯斯特公司)引导下接受导管消融。在消融术前1天内进行钆增强MR(n = 8)或对比增强高分辨率CT(n = 8)成像。使用一种新型软件包(CartoMerge,百盛韦伯斯特公司)对包含肺静脉(PVs)的左心房(LA)进行分割和提取以进行图像配准。通过地标配准和表面配准相结合,将分割后的3D MR/CT LA重建精确配准到实时标测空间。配准后的3D MR/CT LA重建成功用于指导围绕PVs进行射频消融应用的部署。在完成PVs周围的环周消融后,32%的PVs实现了电隔离。在环形标测导管引导下,使用分段方法将其余PVs与LA断开连接。配准后的3D MR/CT LA重建表面与多个电解剖标测点之间的距离为3.05±0.41 mm。未观察到并发症。
三维MR/CT图像能够成功提取并配准到解剖学引导的临床房颤消融中。术中详细且准确的解剖信息显示可实现针对个体PV和LA解剖结构的定制射频消融。
