心肌梗死的暗血延迟增强心脏磁共振
Dark-Blood Delayed Enhancement Cardiac Magnetic Resonance of Myocardial Infarction.
机构信息
Duke Cardiovascular Magnetic Resonance Center, Duke University Medical Center, Durham, North Carolina; Division of Cardiology, Duke University Medical Center, Durham, North Carolina.
Siemens Medical Solutions, Malvern, Pennsylvania.
出版信息
JACC Cardiovasc Imaging. 2018 Dec;11(12):1758-1769. doi: 10.1016/j.jcmg.2017.09.021. Epub 2017 Dec 13.
OBJECTIVES
This study introduced and validated a novel flow-independent delayed enhancement technique that shows hyperenhanced myocardium while simultaneously suppressing blood-pool signal.
BACKGROUND
The diagnosis and assessment of myocardial infarction (MI) is crucial in determining clinical management and prognosis. Although delayed enhancement cardiac magnetic resonance (DE-CMR) is an in vivo reference standard for imaging MI, an important limitation is poor delineation between hyperenhanced myocardium and bright LV cavity blood-pool, which may cause many infarcts to become invisible.
METHODS
A canine model with pathology as the reference standard was used for validation (n = 22). Patients with MI and normal controls were studied to ascertain clinical performance (n = 31).
RESULTS
In canines, the flow-independent dark-blood delayed enhancement (FIDDLE) technique was superior to conventional DE-CMR for the detection of MI, with higher sensitivity (96% vs. 85%, respectively; p = 0.002) and accuracy (95% vs. 87%, respectively; p = 0.01) and with similar specificity (92% vs, 92%, respectively; p = 1.0). In infarcts that were identified by both techniques, the entire length of the endocardial border between infarcted myocardium and adjacent blood-pool was visualized in 33% for DE-CMR compared with 100% for FIDDLE. There was better agreement for FIDDLE-measured infarct size than for DE-CMR infarct size (95% limits-of-agreement, 2.1% vs. 5.5%, respectively; p < 0.0001). In patients, findings were similar. FIDDLE demonstrated higher accuracy for diagnosis of MI than DE-CMR (100% [95% confidence interval [CI]: 89% to 100%] vs. 84% [95% CI: 66% to 95%], respectively; p = 0.03).
CONCLUSIONS
The study introduced and validated a novel CMR technique that improves the discrimination of the border between infarcted myocardium and adjacent blood-pool. This dark-blood technique provides diagnostic performance that is superior to that of the current in vivo reference standard for the imaging diagnosis of MI.
目的
本研究介绍并验证了一种新的血流无关延迟强化技术,该技术可显示强化心肌,同时抑制血池信号。
背景
心肌梗死(MI)的诊断和评估对于确定临床治疗和预后至关重要。虽然延迟强化心脏磁共振(DE-CMR)是 MI 的体内参考标准,但一个重要的局限性是强化心肌与明亮的左心室腔血池之间的边界难以区分,这可能导致许多梗死灶无法显示。
方法
使用具有病理学参考标准的犬模型进行验证(n=22)。对 MI 患者和正常对照者进行研究以确定临床性能(n=31)。
结果
在犬中,血流无关的暗血延迟强化(FIDDLE)技术在 MI 的检测方面优于传统的 DE-CMR,具有更高的敏感性(分别为 96%和 85%;p=0.002)和准确性(分别为 95%和 87%;p=0.01),且特异性相似(分别为 92%和 92%;p=1.0)。在两种技术均能识别的梗死灶中,与 DE-CMR 相比,FIDDLE 可显示 33%的梗死心肌与相邻血池之间的心内膜边界的全长,而 DE-CMR 仅能显示 100%。FIDDLE 测量的梗死面积比 DE-CMR 更一致(95%置信区间,2.1%与 5.5%;p<0.0001)。在患者中,结果相似。FIDDLE 对 MI 的诊断准确性高于 DE-CMR(分别为 100%[95%置信区间:89%至 100%]和 84%[95%置信区间:66%至 95%];p=0.03)。
结论
本研究介绍并验证了一种新的 CMR 技术,该技术可改善梗死心肌与相邻血池之间边界的区分。这种暗血技术的诊断性能优于 MI 成像诊断的当前体内参考标准。
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