Al-Ahmad Amin, Wigström Lars, Sandner-Porkristl Dominique, Wang Paul J, Zei Paul C, Boese Jan, Lauritsch Günter, Moore Teri, Chan Frandics, Fahrig Rebecca
Cardiac Arrhythmia Service, Stanford University Medical School, Stanford, California, USA.
Heart Rhythm. 2008 Apr;5(4):513-9. doi: 10.1016/j.hrthm.2007.12.027. Epub 2008 Jan 11.
Cardiac computed tomography (CT) is commonly used to visualize left atrial (LA) anatomy for ablation of atrial fibrillation. We have developed a new imaging technique that allows acquisition and visualization of three-dimensional (3D) cardiac images in the catheter lab.
We sought to compare LA and pulmonary vein (PV) dimensions acquired using gated multisweep rotational fluoroscopy (C-arm CT) system and multislice computed tomography (MSCT) in an in vivo porcine model.
A Siemens AXIOM Artis dTA C-arm system (Siemens AG, Medical Solutions) was modified to allow acquisition of four bidirectional sweeps during synchronized acquisition of the electrocardiogram signal to allow retrospective gating. C-arm CT image volumes were then reconstructed. Gated MSCT (SOMATOM Sensation 16 and 64, Siemens AG, Medical Solutions) and C-arm CT images were acquired in six animals. The two main PV diameters were measured in orthogonal axes. LA volumes were calculated. C-arm CT measurements were compared with the MSCT measurements.
The average PV diameters using the C-arm CT were 2.24 x 1.35 cm, versus 2.27 x 1.38 cm for CT. The average difference was 0.034 cm (1.9%) between the C-arm CT and standard CT. The average LA volume using MSCT was 49.1 +/- 12.7 cm(3), as compared with 51.0 +/- 8.7 cm(3) obtained by the C-arm CT. The average difference between the C-arm CT and the MSCT was 1.9 cm(3) (3.7%). There were no significant differences in either the PV or LA measurements.
Visualization of 3D cardiac anatomy during ablation procedures is possible and highly accurate. The 3D cardiac reconstructions acquired during ablation procedures will be valuable for procedural planning and guidance.
心脏计算机断层扫描(CT)常用于观察左心房(LA)解剖结构,以进行房颤消融。我们开发了一种新的成像技术,可在导管实验室中采集和显示三维(3D)心脏图像。
我们试图在活体猪模型中比较使用门控多扫旋转荧光透视(C形臂CT)系统和多层计算机断层扫描(MSCT)获取的LA和肺静脉(PV)尺寸。
对西门子AXIOM Artis dTA C形臂系统(西门子股份公司,医疗解决方案部)进行了改装,以便在同步采集心电图信号期间进行四次双向扫描,从而实现回顾性门控。然后重建C形臂CT图像容积。在六只动物中采集了门控MSCT(SOMATOM Sensation 16和64,西门子股份公司,医疗解决方案部)和C形臂CT图像。在相互垂直的轴上测量两条主要PV直径。计算LA容积。将C形臂CT测量结果与MSCT测量结果进行比较。
使用C形臂CT测得的PV平均直径为2.24×1.35 cm,而CT测得的为2.27×1.38 cm。C形臂CT与标准CT之间的平均差值为0.034 cm(1.9%)。使用MSCT测得的LA平均容积为(49.1±12.7)cm³,而C形臂CT测得的为(51.0±8.7)cm³。C形臂CT与MSCT之间的平均差值为1.9 cm³(3.7%)。PV或LA测量结果均无显著差异。
在消融手术过程中可视化3D心脏解剖结构是可行且高度准确的。消融手术过程中获取的3D心脏重建图像对于手术规划和指导将具有重要价值。