Unitat de Fibril.lació Auricular (UFA), Institut Clínic Cardiovascular (ICCV), Hospital Clínic, Universitat de Barcelona, C/Villarroel 170, 08036 Catalonia, Spain.
Institut d'Investigacions Biomèdiques August Pi i Sunyer (IDIBABS), Barcelona, Catalonia, Spain.
Europace. 2021 Mar 8;23(3):380-388. doi: 10.1093/europace/euaa313.
Myocardial fibrosis is a hallmark of atrial fibrillation (AF) and its characterization could be used to guide ablation procedures. Late gadolinium enhanced-magnetic resonance imaging (LGE-MRI) detects areas of atrial fibrosis. However, its accuracy remains controversial. We aimed to analyse the accuracy of LGE-MRI to identify left atrial (LA) arrhythmogenic substrate by analysing voltage and conduction velocity at the areas of LGE.
Late gadolinium enhanced-magnetic resonance imaging was performed before ablation in 16 patients. Atrial wall intensity was normalized to blood pool and classified as healthy, interstitial fibrosis, and dense scar tissue depending of the resulting image intensity ratio. Bipolar voltage and local conduction velocity were measured in LA with high-density electroanatomic maps recorded in sinus rhythm and subsequently projected into the LGE-MRI. A semi-automatic, point-by-point correlation was made between LGE-MRI and electroanatomical mapping. Mean bipolar voltage and local velocity progressively decreased from healthy to interstitial fibrosis to scar. There was a significant negative correlation between LGE with voltage (r = -0.39, P < 0.001) and conduction velocity (r = -0.25, P < 0.001). In patients showing dilated atria (LA diameter ≥45 mm) the conduction velocity predictive capacity of LGE-MRI was weaker (r = -0.40 ± 0.09 vs. -0.20 ± 0.13, P = 0.02).
Areas with higher LGE show lower voltage and slower conduction in sinus rhythm. The enhancement intensity correlates with bipolar voltage and conduction velocity in a point-by-point analysis. The performance of LGE-MRI in assessing local velocity might be reduced in patients with dilated atria (LA diameter ≥45).
心肌纤维化是心房颤动(AF)的一个标志,其特征可用于指导消融程序。钆延迟增强磁共振成像(LGE-MRI)可检测到心房纤维化区域。然而,其准确性仍存在争议。我们旨在通过分析 LGE 区域的电压和传导速度来分析 LGE-MRI 识别左心房(LA)心律失常基质的准确性。
在消融前,对 16 例患者进行了 LGE-MRI 检查。心房壁强度与血池归一化,并根据图像强度比将其分类为健康、间质纤维化和致密瘢痕组织。在窦性心律下,用高密度电生理图谱测量 LA 的双极电压和局部传导速度,然后将其投影到 LGE-MRI 上。在 LGE-MRI 和电生理图谱之间进行了半自动、逐点相关。从健康到间质纤维化到瘢痕,双极电压和局部速度逐渐降低。LGE 与电压(r = -0.39,P < 0.001)和传导速度(r = -0.25,P < 0.001)呈显著负相关。在表现为扩张心房(LA 直径≥45mm)的患者中,LGE-MRI 的传导速度预测能力较弱(r = -0.40±0.09 与 -0.20±0.13,P = 0.02)。
LGE 较高的区域在窦性心律下显示出较低的电压和较慢的传导。在逐点分析中,增强强度与双极电压和传导速度相关。在 LA 直径≥45mm 的患者中,LGE-MRI 评估局部速度的性能可能降低。
