心脏 CT 延迟增强在室性心动过速结构基质特征中的应用:CT 分段瘢痕与电解剖标测的关系。
Cardiac CT With Delayed Enhancement in the Characterization of Ventricular Tachycardia Structural Substrate: Relationship Between CT-Segmented Scar and Electro-Anatomic Mapping.
机构信息
Unit of Clinical Research in Radiology, Experimental Imaging Center, IRCCS San Raffaele Scientific Institute, Milan, Italy; Università Vita-Salute San Raffaele, Milan, Italy.
Unit of Clinical Research in Radiology, Experimental Imaging Center, IRCCS San Raffaele Scientific Institute, Milan, Italy; Università Vita-Salute San Raffaele, Milan, Italy.
出版信息
JACC Cardiovasc Imaging. 2016 Jul;9(7):822-832. doi: 10.1016/j.jcmg.2015.10.024. Epub 2016 Feb 17.
OBJECTIVES
This study sought to compare myocardial scars depicted by computed tomography (CT) with electrical features from electro-anatomic mapping (EAM), assessing the potential role of CT integration in ventricular tachycardia (VT) and radiofrequency catheter ablation (RFCA) procedures.
BACKGROUND
Imaging-based characterization of VT myocardial substrate is required to plan EAM and, potentially, to guide RFCA.
METHODS
Forty-two consecutive patients, 35 of whom had implantable cardioverter-defibrillator, all referred for VT RFCA, underwent pre-procedural CT including an angiographic and a 10-min delayed-enhancement scan. Segmental comparison between scars segmented from CT and low voltages (bipolar voltages <1.5 mV; unipolar voltages <8 mV), late potentials, and RF ablation points on EAM, was carried out. In a subset of 16 consecutive patients, a further point-by-point analysis was performed: a CT-derived 3-dimensional structure including heart anatomy and myocardial scars was integrated with EAM for quantitative comparison.
RESULTS
CT scans identified scars in 39 patients and defined left ventricular wall involvement and mural distribution. Overall segmental concordance between CT and EAM was good (κ = 0.536) despite the presence of implantable cardioverter-defibrillator, scar etiologies, and mural distribution. CT identified segments characterized by low voltages with good sensitivity (76%), good specificity (86%), and very high negative predictive value (95%). Late potentials and RF ablation points fell on scarred segments identified from CT in 79% and 81% of cases, respectively. Point-by-point quantitative comparison revealed good correlation between the average area of scar detected at CT and at bipolar mapping (CT = 4,901 mm(2), bipolar voltages-EAM = 4,070 mm(2); R = 0.78; p < 0.0001). In this study, 70% and 84% of low-amplitude bipolar points were mapped at a maximum distance of 5 mm and 10 mm from CT-segmented scar, respectively.
CONCLUSIONS
CT with delayed-enhancement provides a 3-dimensional characterization of VT scar substrate together with a detailed anatomic model of the heart. This information may offer assistance to plan EAM and RFCA procedures and is potentially suitable for EAM-imaging integration.
目的
本研究旨在比较计算机断层扫描(CT)显示的心肌瘢痕与电解剖标测(EAM)的电特征,评估 CT 整合在室性心动过速(VT)和射频导管消融(RFCA)中的潜在作用。
背景
为了规划 EAM,并且可能为 RFCA 提供指导,需要对 VT 心肌底物进行基于成像的特征描述。
方法
42 例连续患者,其中 35 例有植入式心脏复律除颤器,均因 VT RFCA 而接受术前 CT 检查,包括血管造影和 10 分钟延迟增强扫描。对 CT 分割的瘢痕与低电压(双极电压<1.5 mV;单极电压<8 mV)、晚期电位和 EAM 上的 RF 消融点进行节段性比较。在 16 例连续患者的亚组中,进行了进一步的逐点分析:将包括心脏解剖结构和心肌瘢痕的 CT 衍生的 3 维结构与 EAM 进行整合,进行定量比较。
结果
CT 扫描在 39 例患者中识别出瘢痕,并确定了左心室壁受累和壁分布。尽管存在植入式心脏复律除颤器、瘢痕病因和壁分布,CT 扫描与 EAM 的整体节段性一致性良好(κ=0.536)。CT 能以 76%的敏感性、86%的特异性和 95%的高阴性预测值识别出低电压的节段。晚期电位和 RF 消融点分别有 79%和 81%落在 CT 识别的瘢痕节段上。逐点定量比较显示,CT 检测到的瘢痕平均面积与双极标测(CT=4901mm²,双极电压-EAM=4070mm²;R=0.78;p<0.0001)之间存在良好的相关性。在这项研究中,70%和 84%的低幅度双极点分别位于距 CT 分割瘢痕 5mm 和 10mm 的最大距离处。
结论
延迟增强 CT 可提供 VT 瘢痕底物的 3 维特征,并提供心脏的详细解剖模型。该信息可能有助于规划 EAM 和 RFCA 程序,并且可能适合 EAM-成像整合。
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