Department of Cardiology, University Heart and Vascular Center Hamburg, University Medical Center Hamburg-Eppendorf, Hamburg, Germany.
Institute of Medical Biometry and Epidemiology, Center of Experimental Medicine, University Medical Center Hamburg-Eppendorf, Hamburg, Germany.
J Cardiovasc Electrophysiol. 2021 Feb;32(2):376-388. doi: 10.1111/jce.14859. Epub 2021 Jan 19.
Substrate-based catheter ablation approaches to ventricular tachycardia (VT) focus on low-voltage areas and abnormal electrograms. However, specific electrogram characteristics in sinus rhythm are not clearly defined and can be subject to variable interpretation. We analyzed the potential ablation target size using automatic abnormal electrogram detection and studied findings during substrate mapping in the VT isthmus area.
Electrogram characteristics in 61 patients undergoing scar-related VT ablation using ultrahigh-density 3D-mapping with a 64-electrode mini-basket catheter were analyzed retrospectively. Forty-four complete substrate maps with a mean number of 10319 ± 889 points were acquired. Fractionated potentials detected by automated annotation and manual review were present in 43 ± 21% of the entire low-voltage area (<1.0 mV), highly fractionated potentials in 7 ± 8%, late potentials in 13 ± 15%, fractionated late potentials in 7 ± 9% and isolated late potentials in 2 ± 4%, respectively. Highly fractionated potentials (>10 ± 1 fractionations) were found in all isthmus areas of identified VT during substrate mapping, while isolated late potentials were distant from the critical isthmus area in 29%.
The ablation target area varies enormously in size, depending on the definition of abnormal electrograms. Clear linking of abnormal electrograms with critical VT isthmus areas during substrate mapping remains difficult due to a lack of specificity rather than sensitivity. However, highly fractionated, low-voltage electrograms were found to be present in all critical VT isthmus sites.
基于基质的导管消融技术治疗室性心动过速(VT)主要集中在低电压区域和异常电图上。然而,窦性心律中的特定电图特征尚未明确界定,可能存在不同的解释。我们使用自动异常电图检测分析了潜在的消融靶点大小,并研究了 VT 峡部区域基质标测中的发现。
回顾性分析了 61 例使用超高密度 3D mapping 与 64 电极迷你篮导管进行瘢痕相关 VT 消融的患者的电图特征。获得了 44 个具有平均 10319 ± 889 个点的完整基质图。自动注释和手动复查检测到的碎裂电位在整个低电压区域(<1.0 mV)中存在 43 ± 21%,高度碎裂电位为 7 ± 8%,晚期电位为 13 ± 15%,碎裂晚期电位为 7 ± 9%,孤立晚期电位为 2 ± 4%。在基质标测期间识别出的所有 VT 峡部区域均发现了高度碎裂电位(>10 ± 1 个碎裂),而孤立晚期电位在 29%的情况下远离临界峡部区域。
消融靶点的大小因异常电图的定义而异。由于缺乏特异性而不是敏感性,在基质标测期间异常电图与关键 VT 峡部区域之间的明确联系仍然很困难。然而,在所有关键 VT 峡部部位均发现存在高度碎裂、低电压电图。
