Advanced cardiac MR imaging of ischemic heart disease.

Important advances in rapid magnetic resonance (MR) imaging technology and its application to cardiovascular imaging have been made during the past decade. High-field-strength clinical magnets, high-performance gradient hardware, and ultrafast pulse sequence technology are rapidly making the vision of a comprehensive "one-stop shop" cardiac MR imaging examination a reality. This examination is poised to have a significant effect on the management of coronary artery disease by means of assessment of wall motion with tagging and pharmacologic stress testing, evaluation of the coronary microvasculature with perfusion imaging, and direct visualization of the coronary arteries with MR coronary angiography. This article reviews current state-of-the-art pulse sequence technology and its application to the evaluation of ischemic heart disease by means of MR tagging with dobutamine stress testing, MR perfusion imaging, and MR coronary angiography. Cutting edge areas of research in coil design and exciting new areas of metabolic and oxygen level-dependent imaging are also explored.

[1]  A Z Faranesh,et al.  Ultrafast pulse sequence techniques for cardiac magnetic resonance imaging. , 2000, Topics in magnetic resonance imaging : TMRI.

[2]  E Atalar,et al.  Real-time projection MR angiography: feasibility study. , 2000, Radiology.

[3]  D A Bluemke,et al.  A minimally invasive method for creating coronary stenosis in a swine model for MRI and SPECT imaging. , 2000, Investigative radiology.

[4]  P A Bottomley,et al.  Restoration of low resolution metabolic images with a priori anatomic information: 23Na MRI in myocardial infarction. , 2000, Magnetic resonance imaging.

[5]  E. Topol CORONARY DISEASE Acute myocardial infarction : thrombolysis , 1999 .

[6]  D G Nishimura,et al.  Automatic field map generation and off‐resonance correction for projection reconstruction imaging , 2000, Magnetic resonance in medicine.

[7]  K P Pruessmann,et al.  Cardiac real-time imaging using SENSE. SENSitivity Encoding scheme. , 2000, Magnetic resonance in medicine.

[8]  T K Foo,et al.  Vessel tracking: prospective adjustment of section-selective MR angiographic locations for improved coronary artery visualization over the cardiac cycle. , 2000, Radiology.

[9]  Jerry L Prince,et al.  Cardiac motion tracking using CINE harmonic phase (HARP) magnetic resonance imaging , 1999, Magnetic resonance in medicine.

[10]  O. Simonetti,et al.  Relationship of MRI delayed contrast enhancement to irreversible injury, infarct age, and contractile function. , 1999, Circulation.

[11]  A E Stillman,et al.  Magnetic resonance first‐pass myocardial perfusion imaging: Clinical validation and future applications , 1999, Journal of magnetic resonance imaging : JMRI.

[12]  T H Lim,et al.  MRI of myocardial infarction , 1999, Journal of magnetic resonance imaging : JMRI.

[13]  N J Pelc,et al.  Unaliasing by Fourier‐encoding the overlaps using the temporal dimension (UNFOLD), applied to cardiac imaging and fMRI , 1999, Magnetic resonance in medicine.

[14]  René M. Botnar,et al.  Double-oblique free-breathing high resolution three-dimensional coronary magnetic resonance angiography. , 1999, Journal of the American College of Cardiology.

[15]  T. Parrish,et al.  Relationship of elevated 23Na magnetic resonance image intensity to infarct size after acute reperfused myocardial infarction. , 1999, Circulation.

[16]  Todd S. Sachs,et al.  Fast magnetic resonance coronary angiography with a three‐dimensional stack of spirals trajectory , 1999, Magnetic resonance in medicine.

[17]  R. Kim,et al.  Physiological basis for potassium (39K) magnetic resonance imaging of the heart. , 1999, Circulation research.

[18]  F. Epstein,et al.  Segmented k‐space fast cardiac imaging using an echo‐train readout , 1999, Magnetic resonance in medicine.

[19]  C. Kramer,et al.  Early contrast-enhanced MRI predicts late functional recovery after reperfused myocardial infarction. , 1999, Circulation.

[20]  E. Fleck,et al.  Noninvasive diagnosis of ischemia-induced wall motion abnormalities with the use of high-dose dobutamine stress MRI: comparison with dobutamine stress echocardiography. , 1999, Circulation.

[21]  E R McVeigh,et al.  Multi‐echo segmented k‐space imaging: An optimized hybrid sequence for ultrafast cardiac imaging , 1999, Magnetic resonance in medicine.

[22]  H. K. Charles,et al.  Catheter‐tracking FOV MR fluoroscopy , 1998, Magnetic resonance in medicine.

[23]  E R McVeigh,et al.  Magnitude and time course of microvascular obstruction and tissue injury after acute myocardial infarction. , 1998, Circulation.

[24]  E R McVeigh,et al.  In vivo measurement of T*2 and field inhomogeneity maps in the human heart at 1.5 T , 1998, Magnetic resonance in medicine.

[25]  E. McVeigh,et al.  Regional myocardial function. , 1998, Cardiology clinics.

[26]  N. Wilke,et al.  Assessing myocardial perfusion in coronary artery disease with magnetic resonance first-pass imaging. , 1998, Cardiology clinics.

[27]  R. Dolan,et al.  MS-325: albumin-targeted contrast agent for MR angiography. , 1998, Radiology.

[28]  Katherine C. Wu,et al.  Prognostic significance of microvascular obstruction by magnetic resonance imaging in patients with acute myocardial infarction. , 1998, Circulation.

[29]  B. Korbmacher,et al.  Basal metabolism does not account for high O2 consumption in stunned myocardium. , 1998, American journal of physiology. Heart and circulatory physiology.

[30]  J S Lewin,et al.  Invited. Remember true FISP? a high SNR, near 1‐second imaging method for T2‐like contrast in interventional MRI at .2 T , 1998, Journal of magnetic resonance imaging : JMRI.

[31]  E Atalar,et al.  Intravascular magnetic resonance imaging of aortic atherosclerotic plaque composition. , 1997, Arteriosclerosis, thrombosis, and vascular biology.

[32]  W. Manning,et al.  Simultaneous acquisition of spatial harmonics (SMASH): Fast imaging with radiofrequency coil arrays , 1997, Magnetic resonance in medicine.

[33]  C J Hardy,et al.  Real‐time interactive MRI on a conventional scanner , 1997, Magnetic resonance in medicine.

[34]  J R Roelandt,et al.  Methodology, feasibility, safety and diagnostic accuracy of dobutamine stress echocardiography. , 1997, Journal of the American College of Cardiology.

[35]  E. Bossone,et al.  Evaluation of myocardial viability using stress echocardiography. , 1997, Progress in cardiovascular diseases.

[36]  Randy Giaquinto,et al.  What is the optimum phased array coil design for cardiac and torso magnetic resonance? , 1997, Magnetic resonance in medicine.

[37]  P A Bottomley,et al.  High resolution intravascular MRI and MRS by using a catheter receiver coil , 1996, Magnetic resonance in medicine.

[38]  E. Haacke,et al.  Myocardial signal response to dipyridamole and dobutamine: Demonstration of the BOLD effect using a double‐echo gradient‐echo sequence , 1996, Magnetic resonance in medicine.

[39]  B. Rosen,et al.  Myocardial intensity changes associated with flow stimulation in blood oxygenation sensitive magnetic resonance imaging , 1996, Magnetic resonance in medicine.

[40]  R. Judd,et al.  Physiological basis of myocardial contrast enhancement in fast magnetic resonance images of 2-day-old reperfused canine infarcts. , 1995, Circulation.

[41]  B R Rosen,et al.  Mr contrast due to intravascular magnetic susceptibility perturbations , 1995, Magnetic resonance in medicine.

[42]  E. Atalar,et al.  Regional heterogeneity of human myocardial infarcts demonstrated by contrast-enhanced MRI. Potential mechanisms. , 1995, Circulation.

[43]  Y Wang,et al.  3D coronary MR angiography in multiple breath‐holds using a respiratory feedback monitor , 1995, Magnetic resonance in medicine.

[44]  Albert Macovski,et al.  Coronary Angiography with Magnetization‐Prepared T2 Contrast , 1995, Magnetic resonance in medicine.

[45]  Ying Wang,et al.  Regional myocardial blood volume and flow: First‐pass MR imaging with polylysine‐Gd‐DTPA , 1995, Journal of magnetic resonance imaging : JMRI.

[46]  E. McVeigh,et al.  Multi‐Shot EPI for Improvement of Myocardial Tag Contrast: Comparison with Segmented SPGR , 1995, Magnetic resonance in medicine.

[47]  M T Alley,et al.  Coronary MRI with a Respiratory Feedback Monitor: The 2D Imaging Case , 1995, Magnetic resonance in medicine.

[48]  A. Duerinckx,et al.  Two-dimensional coronary MR angiography: analysis of initial clinical results. , 1994, Radiology.

[49]  E R McVeigh,et al.  Minimization of dead‐periods in MRI pulse sequences for imaging oblique planes , 1994, Magnetic resonance in medicine.

[50]  Todd S. Sachs,et al.  Real‐time motion detection in spiral MRI using navigators , 1994, Magnetic resonance in medicine.

[51]  W J Manning,et al.  Studies of Gd‐DTPA relaxivity and proton exchange rates in tissue , 1994, Magnetic resonance in medicine.

[52]  Elliot R. McVeigh,et al.  Optimization of tag thickness for measuring position with magnetic resonance imaging , 1994, IEEE Trans. Medical Imaging.

[53]  Jerry L. Prince,et al.  Tag and contour detection in tagged MR images of the left ventricle , 1994, IEEE Trans. Medical Imaging.

[54]  S. Kaul,et al.  Dipyridamole thallium-201 imaging versus dobutamine echocardiography for the evaluation of coronary artery disease in patients unable to exercise. , 1993, The American journal of cardiology.

[55]  V. P. Chacko,et al.  Oxygenation in the rabbit myocardium: assessment with susceptibility-dependent MR imaging. , 1993, Radiology.

[56]  G. Mckinnon Ultrafast interleaved gradient‐echo‐planar imaging on a standard scanner , 1993, Magnetic resonance in medicine.

[57]  M. Wait,et al.  Dobutamine Stress Echocardiography Identifies Hibernating Myocardium and Predicts Recovery of Left Ventricular Function after Coronary Revascularization , 1993, Circulation.

[58]  R. Erbel,et al.  Exercise echocardiography for the evaluation of patients after nonsurgical coronary artery revascularization. , 1993, Journal of the American College of Cardiology.

[59]  N Fujita,et al.  Velocity-encoded cine MRI in the evaluation of left ventricular diastolic function: measurement of mitral valve and pulmonary vein flow velocities and flow volume across the mitral valve. , 1993, American Heart Journal.

[60]  M. Moseley,et al.  Echo-planar MR imaging of normal and ischemic myocardium with gadodiamide injection. , 1993, Radiology.

[61]  Robert R. Edelman,et al.  Fat‐Suppressed Breath‐Hold Magnetic Resonance Coronary Angiography , 1993, Circulation.

[62]  Bob S. Hu,et al.  Fast Spiral Coronary Artery Imaging , 1992, Magnetic resonance in medicine.

[63]  E. McVeigh,et al.  Cardiac Tagging with Breath‐Hold Cine MRI , 1992, Magnetic resonance in medicine.

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

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

[66]  A. Macovski,et al.  Selection of a convolution function for Fourier inversion using gridding [computerised tomography application]. , 1991, IEEE transactions on medical imaging.

[67]  J. Pauly,et al.  Simultaneous spatial and spectral selective excitation , 1990, Magnetic resonance in medicine.

[68]  J. Bassingthwaighte Microcirculatory considerations in NMR flow imaging , 1990, Magnetic resonance in medicine.

[69]  L. Becker,et al.  Progressive impairment of regional myocardial perfusion after initial restoration of postischemic blood flow. , 1989, Circulation.

[70]  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.

[71]  Kensuke Sekihara,et al.  Steady-State Magnetizations in Rapid NMR Imaging Using Small Flip Angles and Short Repetition Intervals , 1987, IEEE Transactions on Medical Imaging.

[72]  C. Ahn,et al.  High-Speed Spiral-Scan Echo Planar NMR Imaging-I , 1986, IEEE Transactions on Medical Imaging.

[73]  P. Mansfield Multi-planar image formation using NMR spin echoes , 1977 .

[74]  H. Feigenbaum,et al.  Cardiac Motion in Patients with Pericardial Effusion: A Study Using Reflected Ultrasound , 1966, Circulation.