Fat‐Suppressed Breath‐Hold Magnetic Resonance Coronary Angiography

BackgroundThe ability to image the coronary arteries noninvasively would represent an advance in patient care. We have developed a magnetic resonance (MR) angiographic technique that allows the acquisition of complete images of coronary flow within a single breath-hold. By this method, the feasibility of noninvasive MR coronary angiography was evaluated in 25 subjects, including 19 healthy adult volunteers and six patients after diagnostic coronary angiography. Methods and ResultsNoninvasive MR coronary angiography was performed with a fat-suppressed ECG-gated gradient-echo sequence with k-space segmentation. Overlapping transverse sections were initially used to image coronary flow, with oblique images obtained after identification of proximal anatomy. The left main coronary artery was seen in 24 subjects (96%), with a mean diameter of 4.8 mm (range, 3.4–6.2 mm) and average length of 10 mm (range, 8–14 mm). The left anterior descending coronary artery was seen in 100% of subjects, with a mean proximal diameter of 3.6 mm (range, 2.6–4.3 mm) and for an average length of 44 mm (range, 28–93 mm). The left circumflex coronary artery was seen in 76% of subjects, with a mean proximal diameter of 3.5 mm (range, 2.6–4.3 mm) and for an average length of 25 mm (range, 9–42 mm). The right coronary artery was also identified in 100% of subjects, with a mean proximal diameter of 3.7 mm (range, 2.7–5.1 mm) and for an average length of 58 mm (range, 24–122 mm). Quantitative angiography of normal proximal segments demonstrated a good correlation with MR-determined lumen diameters (r=0.86, p<0.002). Occluded vessels in patients with coronary artery disease displayed an absence of flow signal distal to the occlusion, whereas vessels with significant angiographic stenoses demonstrated signal loss corresponding to the area of the stenosis, with visualization of the more distal vessel. ConclusionsBreath-hold MR coronary angiography provides visualization of the major epicardial vessels. In the future, MR coronary angiography may provide a noninvasive means for the evaluation of patients with known or suspected coronary artery disease.

[1]  T. Akasaka,et al.  Detection of left main coronary artery stenosis by transesophageal color Doppler and two-dimensional echocardiography. , 1990, Circulation.

[2]  W. Krupski Diagnosis of carotid artery stenosis: Comparison of 2DFT time-of-flight MR angiography with contrast angiography in 50 patients , 1992 .

[3]  E. Bolson,et al.  Lumen Diameter of Normal Human Coronary Arteries: Influence of Age, Sex, Anatomic Variation, and Left Ventricular Hypertrophy or Dilation , 1992, Circulation.

[4]  R. Edelman,et al.  First-pass nuclear magnetic resonance imaging studies using gadolinium-DTPA in patients with coronary artery disease. , 1991, Journal of the American College of Cardiology.

[5]  E M Haacke,et al.  MR angiography of peripheral, carotid, and coronary arteries. , 1987, AJR. American journal of roentgenology.

[6]  J. Weinreb,et al.  Diagnosis of carotid artery stenosis: comparison of 2DFT time-of-flight MR angiography with contrast angiography in 50 patients. , 1991, AJNR. American journal of neuroradiology.

[7]  E. Zerhouni,et al.  Quantification of and Correction for Left Ventricular Systolic Long‐Axis Shortening by Magnetic Resonance Tissue Tagging and Slice Isolation , 1991, Circulation.

[8]  A. Friedman,et al.  Coronary spasm: Prinzmetal's variant angina vs. catheter-induced spasm; refractory spasm vs. fixed stenosis. , 1979, AJR. American journal of roentgenology.

[9]  D G Nishimura,et al.  Fast angiography using selective inversion recovery , 1992, Magnetic resonance in medicine.

[10]  T J Masaryk,et al.  Intracranial circulation: pulse-sequence considerations in three-dimensional (volume) MR angiography. , 1989, Radiology.

[11]  J E Edwards,et al.  Correlation of the Antemortem Coronary Arteriogram and the Postmortem Specimen , 1973, Circulation.

[12]  R. Edelman,et al.  Coronary arteries: breath-hold MR angiography. , 1991, Radiology.

[13]  A. Pichard,et al.  Coronary arteriography 1984-1987: a report of the Registry of the Society for Cardiac Angiography and Interventions. II. An analysis of 218 deaths related to coronary arteriography. , 1989, Catheterization and cardiovascular diagnosis.

[14]  V. Fuster,et al.  Angiographic evolution of coronary artery morphology in unstable angina. , 1986, Journal of the American College of Cardiology.

[15]  A. Pichard,et al.  Coronary arteriography 1984-1987: a report of the Registry of the Society for Cardiac Angiography and Interventions. I. Results and complications. , 1989, Catheterization and cardiovascular diagnosis.

[16]  D Chien,et al.  Fast selective black blood MR imaging. , 1991, Radiology.

[17]  K. Fellows,et al.  Hemodynamically Significant Primary Anomalies of the Coronary Arteries: Angiographic Aspects , 1978, Circulation.

[18]  R. Edelman,et al.  Cineangiography of the heart in a single breath hold with a segmented turboFLASH sequence. , 1991, Radiology.

[19]  R. Edelman,et al.  Magnetic resonance imaging: A reliable test for the evaluation of proximal atherosclerotic renal arterial stenosis , 1991 .

[20]  M. Cheitlin,et al.  Sudden Death as a Complication of Anomalous Left Coronary Origin From the Anterior Sinus of Valsalva: A Not‐So‐Minor Congenital Anomaly , 1974, Circulation.

[21]  S. Paulin Coronary angiography : a technical, anatomic and clinical study , 1964 .

[22]  R. Helfant,et al.  Magnetic resonance imaging to evaluate patency of aortocoronary bypass grafts. , 1987, Circulation.

[23]  E M Haacke,et al.  Optimizing blood vessel contrast in fast three‐dimensional MRI , 1990, Magnetic resonance in medicine.

[24]  D. Burstein,et al.  MR imaging of coronary artery flow in isolated and in vivo hearts , 1991, Journal of magnetic resonance imaging : JMRI.

[25]  G. V. von Schulthess,et al.  MR imaging of the aortic root and proximal coronary arteries. , 1987, AJR. American journal of roentgenology.

[26]  L. Axel,et al.  Noninvasive determination of coronary artery bypass graft patency by cine magnetic resonance imaging. , 1989, Circulation.

[27]  N. Reichek,et al.  Echocardiographic visualization of coronary artery anatomy in the adult. , 1988, Journal of the American College of Cardiology.

[28]  J. Morganroth,et al.  Detecting Left Main Coronary Artery Disease by Apical, Cross‐sectional Echocardiography , 1980, Circulation.

[29]  R. C. Eggleton,et al.  Noninvasive Visualization of the Left Main Coronary Artery by Cross‐sectional Echocardiography , 1976, Circulation.

[30]  N. Nanda,et al.  Usefulness and limitations of transesophageal echocardiography in the assessment of proximal coronary artery stenosis. , 1992, Journal of the American College of Cardiology.

[31]  Z H Cho,et al.  NMR angiography of coronary vessels with 2‐D planar image scanning , 1991, Magnetic resonance in medicine.