Antz Matthias, Berodt Katarzyna, Bänsch Dietmar, Ernst Sabine, Chun Kr Julian, Satomi Kazuhiro, Schmidt Boris, Boczor Sigrid, Ouyang Feifan, Kuck Karl-Heinz
Medizinische Abteilung, Asklepios Klinik St. Georg, Hamburg, Germany.
Clin Res Cardiol. 2008 Feb;97(2):110-7. doi: 10.1007/s00392-007-0596-7. Epub 2007 Nov 28.
Ablation of symptomatic ventricular tachycardia (VT) in patients with coronary artery disease is frequently performed using the three dimensional mapping system CARTO. In the amplitude map, bipolar potentials of <1.5 mV are considered abnormal and represent damaged myocardium due to previous infarction. This pathological electrical area can be arrhythmogenic, serving as the substrate for reentrant VT. The purpose of this study was to correlate the size of the endocardial substrate with the success of VT catheter ablation. Included in this retrospective analysis were 69 consecutive patients with coronary artery disease who underwent ablation for symptomatic clinical VT using CARTO. The voltage maps were analyzed and the area with abnormal bipolar electrograms (<1.5 mV) was determined using geometric approximation models. The area of abnormal electrograms was divided into three sizes: small (<or=15 cm(2); 11 patients), medium (16-99 cm(2); 50 patients), and large (>or=100 cm(2); 8 patients). Patient characteristics were not different between the three substrate groups in regard to age, tachycardia cycle length, or number of radiofrequency applications, however differed significantly between the small, medium and large group in regard to left ventricular ejection fraction (44 +/- 12% vs. 32 +/- 9% vs. 21 +/- 7%, respectively; P = 0.001). Overall, there was a significant correlation between myocardial infarction locations and endocardial substrate sizes (P = 0.031), such that 73% of small substrates were found after inferior myocardial infarctions, and 100% of large substrates after anterior and multiple myocardial infarctions (P = 0.003). After ablation, inducibility of ventricular arrhythmias was more rare in patients with small substrates compared to patients with medium or large substrates (small substrates: 9%, medium and large substrates: 43%, P = 0.043). Although during follow-up of 25 +/- 17 months (1 day to 72 months) there was no significant difference between endocardial substrate sizes in regard to recurrence rates (small: 27%, medium: 38%, large: 50%, P = 0.588), patients with a small substrate did not have fast VT or ventricular fibrillation (VF), in contrast to 30% and 38% of patients with medium and large substrates, respectively. We conclude that in patients with coronary artery disease a small area of low amplitude bipolar potentials (<or=15 cm(2)) was seen more often after inferior myocardial infarction than after anterior and multiple infarctions. After ablation, patients with small substrates were rarely inducible and showed a more benign course during follow-up (trend towards fewer arrhythmia recurrences and no fast VT or VF). As a result smaller arrhythmogenic substrates appear to be better amenable to catheter ablation than larger substrates.
在冠心病患者中,常使用三维标测系统CARTO对有症状的室性心动过速(VT)进行消融。在振幅图中,双极电位<1.5 mV被视为异常,代表既往梗死导致的心肌损伤。这个病理性电区域可能具有致心律失常性,作为折返性室性心动过速的基质。本研究的目的是将心内膜基质的大小与室性心动过速导管消融的成功率相关联。这项回顾性分析纳入了69例连续的冠心病患者,他们使用CARTO对有症状的临床室性心动过速进行了消融。分析电压图,并使用几何近似模型确定双极电图异常(<1.5 mV)的区域。将异常电图区域分为三种大小:小(≤15 cm²;11例患者)、中(16 - 99 cm²;50例患者)和大(≥100 cm²;8例患者)。在年龄、心动过速周期长度或射频应用次数方面,三个基质组之间的患者特征没有差异,但在左心室射血分数方面,小、中、大组之间存在显著差异(分别为44±12% vs. 32±9% vs. 21±7%;P = 0.001)。总体而言,心肌梗死部位与心内膜基质大小之间存在显著相关性(P = 0.031),因此73%的小基质在心肌下壁梗死之后发现,而100%的大基质在心肌前壁梗死和多次心肌梗死之后发现(P = 0.003)。消融后,与中或大基质的患者相比,小基质患者的室性心律失常诱发性更少见(小基质:9%,中、大基质:43%,P = 0.043)。尽管在25±17个月(1天至72个月)的随访期间,心内膜基质大小在复发率方面没有显著差异(小:27%,中:38%,大:50%,P = 0.588),但与分别有30%和38%的中、大基质患者相比,小基质患者没有快速室性心动过速或心室颤动(VF)。我们得出结论,在冠心病患者中,心肌下壁梗死之后比心肌前壁梗死和多次梗死之后更常出现小面积的低振幅双极电位(≤15 cm²)。消融后,小基质患者很少能被诱发心律失常,并且在随访期间表现出更良性的病程(心律失常复发较少且无快速室性心动过速或心室颤动的趋势)。因此,较小的致心律失常基质似乎比较大的基质更适合导管消融。
Zotero 插件