Department of Cardiology, Heart-Lung-Center, Leiden University Medical Center (LUMC), P.O. Box 9600, Leiden 2300 RC, The Netherlands.
Willem Einthoven Center of Arrhythmia Research and Management (WECAM), Leiden, The Netherlands, and Aarhus, Denmark.
Eur Heart J. 2024 Jun 14;45(23):2079-2094. doi: 10.1093/eurheartj/ehae268.
Patients with repaired tetralogy of Fallot remain at risk of life-threatening ventricular tachycardia related to slow-conducting anatomical isthmuses (SCAIs). Preventive ablation of SCAI identified by invasive electroanatomical mapping is increasingly performed. This study aimed to non-invasively identify SCAI using 3D late gadolinium enhancement cardiac magnetic resonance (3D-LGE-CMR).
Consecutive tetralogy of Fallot patients who underwent right ventricular electroanatomical mapping (RV-EAM) and 3D-LGE-CMR were included. High signal intensity threshold for abnormal myocardium was determined based on direct comparison of bipolar voltages and signal intensity by co-registration of RV-EAM with 3D-LGE-CMR. The diagnostic performance of 3D-LGE-CMR to non-invasively identify SCAI was determined, validated in a second cohort, and compared with the discriminative ability of proposed risk scores.
The derivation cohort consisted of 48 (34 ± 16 years) and the validation cohort of 53 patients (36 ± 18 years). In the derivation cohort, 78 of 107 anatomical isthmuses (AIs) identified by EAM were normal-conducting AI, 22 were SCAI, and 7 blocked AI. High signal intensity threshold was 42% of the maximal signal intensity. The sensitivity and specificity of 3D-LGE-CMR for identifying SCAI or blocked AI were 100% and 90%, respectively. In the validation cohort, 85 of 124 AIs were normal-conducting AI, 36 were SCAI, and 3 blocked AI. The sensitivity and specificity of 3D-LGE-CMR were 95% and 91%, respectively. All risk scores showed an at best modest performance to identify SCAI (area under the curve ≤ .68).
3D late gadolinium enhancement cardiac magnetic resonance can identify SCAI with excellent accuracy and may refine non-invasive risk stratification and patient selection for invasive EAM in tetralogy of Fallot.
修复后的法洛四联症患者仍然存在与慢传导解剖性峡部(SCAI)相关的危及生命的室性心动过速的风险。越来越多的采用侵入性电解剖标测来预防性消融 SCAI。本研究旨在通过 3D 晚期钆增强心脏磁共振(3D-LGE-CMR)来无创识别 SCAI。
连续纳入接受右心室电解剖标测(RV-EAM)和 3D-LGE-CMR 的法洛四联症患者。通过将 RV-EAM 与 3D-LGE-CMR 配准,根据双极电压和信号强度的直接比较,确定异常心肌的高信号强度阈值。确定 3D-LGE-CMR 无创识别 SCAI 的诊断性能,在第二队列中进行验证,并与提出的风险评分的鉴别能力进行比较。
该研究的推导队列包括 48 名(34 ± 16 岁)患者,验证队列包括 53 名(36 ± 18 岁)患者。在推导队列中,EAM 识别的 107 个解剖峡部(AIs)中有 78 个为正常传导 AI,22 个为 SCAI,7 个为阻塞 AI。高信号强度阈值为最大信号强度的 42%。3D-LGE-CMR 识别 SCAI 或阻塞 AI 的灵敏度和特异性分别为 100%和 90%。在验证队列中,EAM 识别的 124 个 AIs 中有 85 个为正常传导 AI,36 个为 SCAI,3 个为阻塞 AI。3D-LGE-CMR 的灵敏度和特异性分别为 95%和 91%。所有风险评分在识别 SCAI 方面的表现均为最佳(曲线下面积≤.68)。
3D 晚期钆增强心脏磁共振可以非常准确地识别 SCAI,可能会改进法洛四联症患者的无创风险分层和对侵入性 EAM 的患者选择。
