Fahmy Tamer S, Wazni Oussama M, Jaber Wael A, Walimbe Vivek, Di Biase Luigi, Elayi Claude S, DiFilippo Frank P, Young Ron B, Patel Dimpi, Riedlbauchova Lucie, Corrado Andrea, Burkhardt J David, Schweikert Robert A, Arruda Mauricio, Natale Andrea
Department of Cardiovascular Medicine, Cleveland Clinic, Ohio, USA.
Heart Rhythm. 2008 Nov;5(11):1538-45. doi: 10.1016/j.hrthm.2008.08.020. Epub 2008 Aug 28.
Despite the recent advances in cardiac mapping, ablation of scar-related ventricular tachycardia (VT) still remains a clinical challenge. A detailed electroanatomical map is a prerequisite for accurate localization and ablation of the VT substrate.
The purpose of this study was to evaluate the feasibility and accuracy of integrating the positron emission tomography (PET)/computed tomography (CT) with the electroanatomical map and compare the accuracy of the voltage-based scar with the biological scar.
Patients undergoing radiofrequency ablation (n = 19) for scar-related VT were enrolled. CT angiography and PET scans were performed for all patients. Tomographic and volumetric data from both images were processed and coregistered using internally designed software. That image was segmented in an electrophysiology mapping system and registered to the electroanatomical map. Eight different thresholds were applied on the voltage map to define the scar. The surface areas of the biological and electrical dense scars at different thresholds were measured and compared.
The PET/CT image was well integrated with the electroanatomical map with a mean surface registration error of 5.1 +/- 2.1 mm. Of the eight different thresholds defining the scar, the surface area of the scar at a threshold of 0.9 mV (68.6 +/- 49.2 cm(2)) correlated best with the surface area of the PET-based scar (70.4 +/- 49.3 cm(2)) and had the least total area error (4.8 +/- 1.8 cm(2)) compared with the 0.5 threshold (29.7 +/- 23.9 cm(2)).
Integrating PET/CT with the electroanatomical map is feasible and accurate. Based on the biological scar, readjustment of the voltage scar threshold to 0.9 mV is suggested. In view of the better accuracy of PET/CT in defining scar, the need for acquiring detailed voltage maps may be obviated.
尽管心脏标测技术最近取得了进展,但消融瘢痕相关室性心动过速(VT)仍然是一项临床挑战。详细的电解剖图是准确定位和消融VT基质的先决条件。
本研究旨在评估将正电子发射断层扫描(PET)/计算机断层扫描(CT)与电解剖图整合的可行性和准确性,并比较基于电压的瘢痕与生物性瘢痕的准确性。
纳入19例因瘢痕相关VT接受射频消融的患者。对所有患者进行CT血管造影和PET扫描。使用内部设计的软件对来自这两种图像的断层和容积数据进行处理并配准。将该图像在电生理标测系统中分割并与电解剖图配准。在电压图上应用八个不同的阈值来定义瘢痕。测量并比较不同阈值下生物性和电致密瘢痕的表面积。
PET/CT图像与电解剖图很好地整合,平均表面配准误差为5.1±2.1 mm。在定义瘢痕的八个不同阈值中,0.9 mV阈值下瘢痕的表面积(68.6±49.2 cm²)与基于PET的瘢痕表面积(70.4±49.3 cm²)相关性最佳,与0.5 mV阈值(29.7±23.9 cm²)相比,总面积误差最小(4.8±1.8 cm²)。
将PET/CT与电解剖图整合是可行且准确的。建议根据生物性瘢痕将电压瘢痕阈值重新调整为0.9 mV。鉴于PET/CT在定义瘢痕方面具有更高的准确性,可能无需获取详细的电压图。
