Purpose:To evaluate the feasibility of assessing coronary vasodilation following exogenous nitrates, using magnetic resonance angiography (MRA). The assessment of coronary response to exogenous nitrovasodilators may have a diagnostic and prognostic impact in patients with coronary artery disease. To date, stress imaging of coronary artery vasomotion has been confined to the catheterization laboratory. MRA is emerging as a noninvasive tool for coronary artery imaging.
Materials and Methods:Coronary MRA was performed in 20 healthy volunteers (12 males, age ϭ 33 Ϯ 8). We used spiral spoiled gradient echo (SSGE) sequences for imaging of coronary artery lumen. After the baseline short-axis view of the coronary artery was obtained, sublingual nitroglycerin (NTG) (0.3 mg) was administered. In all subjects, shortaxis views of the coronary artery were acquired repetitively (8 -10 times) from 1 up to 10 minutes after NTG administration. Measurements were obtained by two independent investigators.Results: Interpretable short-axis view of left anterior descending artery (LAD) was obtained in 15 subjects (75%); in the remaining five subjects the right coronary artery (RCA) was examined. The interobserver variability was 15%, and the intraobserver variability 4%. The NTG-induced maximal vasodilation was 43 Ϯ 22%. The vasodilator response over time after NTG was maximal on average at 279 Ϯ 112 seconds, but with substantial heterogeneity.
Conclusion:Entity and time course of nitrate-induced coronary vasodilation in the left anterior descending and/or RCA can be assessed using MRA with high feasibility and reproducibility. Coronary MRA has potential for dynamic imaging of coronary vasomotion.
DISTURBANCES IN CORONARY VASOMOTOR toneplay an integral part in the pathophysiology of myocardial ischemia in patients with coronary syndrome (1-3). In patients with coronary artery disease or coronary risk factors, abnormality in coronary vasodilator function is not only confined to endothelium-dependent mechanism, but it may involve an impairment in smooth muscle dilator function (1-5). Coronary vasodilation following exogenous nitrovasodilators is an accepted way to test endothelium-independent function linked to vascular smooth muscle cell (6). Thus, the assessment of endothelial-independent vasodilator capacity to nitrate can provide pivotal information, as both a diagnostic (4) and prognostic (5) tool in patients with coronary artery disease or coronary risk factors. To date, stress imaging of epicardial coronary artery vasomotion has been confined to the catheterization laboratory (1-8) with the inherent risk, cost, radiation exposure, and technical complexity of an invasive procedure.Magnetic resonance angiography (MRA) is emerging as a tool for coronary artery imaging. Unlike x-ray angiography, MRA is radiation-and contrast-free, and it allows coronary image acquisition in any plane, with satisfactory temporal resolution (18 -100 msec), to image the coronary artery during isovolumic relaxation and at middiastole (9). It appears to...