Ventricular tachycardia channels ablation incorporating automated high-density mapping guidance: data from the CHARISMA registry

A. Battaglia, R. Calvanese, C. Pandozi, G. Tola, F. Solimene, L. Rossi, F. Cauti, S. Pedretti, Roberto Mantovan, G. Pelargonio, A. Castro, M. Gagliardi, G. Izzo, M. Malacrida, M. Scaglione
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引用次数: 0

Abstract

Type of funding sources: None. Ventricular tachycardia (VT) ablation targeting conducting channels (CC)s based on timing of late potentials (LPs) during sinus rhythm (dechanneling) may facilitate a scar homogenization strategy without the need for extensive ablation and possibly lead to higher successful rate. We evaluated the feasibility and safety of a CC identification and ablation approach by means of an ultra-high density mapping system with a novel automated algorithm in ischemic VT procedures. Consecutive patients indicated for ischemic VT ablation were prospectively included. A complete map of the left ventricle was performed prior and after ablation through the Rhythmia mapping system. Channels were defined as any signal activity bounded by anatomic and functional barriers and characterized through the Lumipoint (LM) tool and continuous activation was used on the whole ventricular substrate. Procedural end point was the elimination of all identified CCs by ablation at the CC entrance and exit followed by abolition of any residual LPs inside the CC. The ablation endpoint was noninducibility. Data are reported as mean±SD. A total of 36 channels were identified through LM from 28 patients (1.2±0.5 per patient): 21 (75%) patients had 1 CC, 6 (21.4%) had 2 CCs and 1 (3.6%) had 3 CCs. LPs were identified inside CCs in 19 cases (67.9%). In 8 cases (28.6%) LPs were present both inside and outside and in 1 (3.6%) case LPs were present only outside the CC. LPs inside channels covered an area of 7.6±5 mm2 with a ratio between LPs area and CCs’ area of 67.4±31.8%. In 12 (43%) cases LPs area covered more than 90% of the CCs’ area. At voltage map analysis a total of 34 CC were identified: 1 CC was present in 75% of the cases, 2 CCs in 17.9% and 3 CCs in 3.6%. LPs were identified only inside CCs in 46.4% of the cases, both inside and outside in 42.9% and only outside in 10.7%. Healthy tissue (voltage level≥0.5mV) was prevalent (68.2±17%), followed by intermediate voltage areas (0.5-0.05 mV; 31.1±17%) and very low voltage areas (<0.05mV; 0.7±1%). LPs were found mostly at intermediate voltage areas (57.0±34% of the covered area; 39.1±33% at healthy tissue and 3.4±13% at very low voltage areas). LM was more accurate than traditional voltage mapping in identifying CCs: in 6 (21.4%) cases voltage map overestimated LPs areas, in 2 (7.1%) cases failed to fully identify LPs and only in 19 out 28 (67.8%) LM and voltage map had a complete agreement. All CCs’ entrance and exit were successfully ablated and abolition of any residual LPs inside the CC was achieved in all patients. No complication occurred. Noninducibility was achieved in all (100%) the cases. In this experience, a channel identification approach through the advanced Lumipoint tool was more accurate than traditional voltage mapping and seems to be safe, feasible, and effective at least in the acute setting of ischemic VT ablation.
室性心动过速通道消融合并自动高密度测绘指导:来自CHARISMA注册表的数据
资金来源类型:无。基于窦性心律(去通道)期间晚电位(LPs)的时间,靶向传导通道(CC)的室性心动过速(VT)消融可能促进疤痕均匀化策略,而无需广泛消融,并可能导致更高的成功率。我们通过一种具有新颖自动算法的超高密度测绘系统,评估了缺血性VT手术中CC识别和消融方法的可行性和安全性。前瞻性纳入连续接受缺血性房室消融的患者。消融前后通过心律失常测绘系统绘制完整的左心室图。通道被定义为任何受解剖和功能障碍限制的信号活动,并通过Lumipoint (LM)工具进行表征,并在整个心室基底上连续激活。程序终点是在CC入口和出口通过消融消除所有已识别的CC,然后消除CC内任何残留的LPs。消融终点是不可诱导性。数据以均数±标准差报告。共从28例患者(1.2±0.5例/例)中通过LM确定了36个通道:21例(75%)患者为1个CC, 6例(21.4%)为2个CC, 1例(3.6%)为3个CC。19例(67.9%)cc内检出LPs。8例(28.6%)LPs同时出现在CC内和CC外,1例(3.6%)LPs仅出现在CC外,通道内LPs覆盖面积为7.6±5 mm2, LPs面积与CC面积之比为67.4±31.8%。在12例(43%)病例中,lp面积覆盖了cc面积的90%以上。电压图分析共鉴定出34个CC: 1 CC占75%,2 CC占17.9%,3 CC占3.6%。46.4%的病例仅在cc内发现lp, 42.9%的病例在cc内和cc外都发现lp, 10.7%的病例仅在cc外发现lp。健康组织(电压水平≥0.5mV)居多(68.2±17%),其次为中压区(0.5 ~ 0.05 mV;31.1±17%)和极低压区(<0.05mV;0.7±1%)。LPs主要分布在中压区(占覆盖面积的57.0±34%);健康组织39.1±33%,极低电压区3.4±13%)。LM在识别cc方面比传统电压图更准确:6例(21.4%)电压图高估了lp区域,2例(7.1%)不能完全识别lp, 28例中只有19例(67.8%)LM和电压图完全一致。所有患者CC的入口和出口均被成功消融,CC内任何残留LPs均被清除。无并发症发生。所有病例(100%)均无诱发性。在本实验中,通过先进的Lumipoint工具进行通道识别的方法比传统的电压映射更准确,至少在急性缺血性房室消融的情况下,似乎是安全、可行和有效的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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