Magnetic Resonance Imaging of the Cardiovascular System: Present State of the Art and Future Potential

John R. Beljan; George M. Bohigian; E. Harvey Estes; Ira R. Friedlander; William R. Kennedy; John H. Moxley; Paul S. Salva; William C. Scott; Joseph H. Skom; Richard M. Steinhilber; Jack P. Strong; Henry N. Wagner; William R. Hendee; William T. Mcgivney; Donald Bennett; Ira R. Friedlander; Jack Greenberg; Lawrence D. Jacobs; Alexander R. Margulis; Thomas F. Meaney; William H. Oldendorf; Gerald M. Pohost; George A. Sisson; Robert Spetzler; Henry N. Wagner; Robert C. Canby; Kathleen Davis; Donald R. Bennett

doi:10.1001/jama.1988.03720020055037

Magnetic Resonance Imaging of the Cardiovascular System: Present State of the Art and Future Potential

John R. Beljan, George M. Bohigian, E. Harvey Estes, Ira R. Friedlander, William R. Kennedy, John H. Moxley, Paul S. Salva, William C. Scott, Joseph H. Skom, Richard M. Steinhilber, Jack P. Strong, Henry N. Wagner, William R. Hendee, William T. Mcgivney, Donald Bennett, Ira R. Friedlander, Jack Greenberg, Lawrence D. Jacobs, Alexander R. Margulis, Thomas F. MeaneyWilliam H. Oldendorf, Gerald M. Pohost, George A. Sisson, Robert Spetzler, Henry N. Wagner, Robert C. Canby, Kathleen Davis, Donald R. Bennett

Neurology

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Abstract

State-of-the-art magnetic resonance imaging (MRI) generates high-resolution images of the cardiovascular system. Conventional MRI techniques provide images in six to ten minutes per tomographic slice. New strategies have substantially improved the speed of imaging. The technology is relatively expensive, and its cost-effectiveness remains to be defined in relation to other effective, less expensive, and noninvasive technologies, such as echocardiography and nuclear medicine. The ultimate role of MRI will depend on several factors, including the development of specific applications such as (1) noninvasive angiography, especially of the coronary arteries; (2) noninvasive, highresolution assessment of regional myocardial blood flow distribution (eg, using paramagnetic contrast agents); (3) characterization of myocardial diseases using proton-relaxation property changes; and (4) evaluation of in vivo myocardial biochemistry. The three-dimensional imaging capability and the ability to image cardiovascular structures without contrast material give MRI a potential advantage over existing noninvasive diagnostic imaging techniques. This report analyzes current applications of MRI to the cardiovascular system and speculates on their future.

Original language	English (US)
Pages (from-to)	253-259
Number of pages	7
Journal	JAMA: The Journal of the American Medical Association
Volume	259
Issue number	2
DOIs	https://doi.org/10.1001/jama.1988.03720020055037
State	Published - Jan 8 1988

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Beljan, J. R., Bohigian, G. M., Estes, E. H., Friedlander, I. R., Kennedy, W. R., Moxley, J. H., Salva, P. S., Scott, W. C., Skom, J. H., Steinhilber, R. M., Strong, J. P., Wagner, H. N., Hendee, W. R., Mcgivney, W. T., Bennett, D., Friedlander, I. R., Greenberg, J., Jacobs, L. D., Margulis, A. R., ... Bennett, D. R. (1988). Magnetic Resonance Imaging of the Cardiovascular System: Present State of the Art and Future Potential. JAMA: The Journal of the American Medical Association, 259(2), 253-259. https://doi.org/10.1001/jama.1988.03720020055037

Beljan, JR, Bohigian, GM, Estes, EH, Friedlander, IR, Kennedy, WR, Moxley, JH, Salva, PS, Scott, WC, Skom, JH, Steinhilber, RM, Strong, JP, Wagner, HN, Hendee, WR, Mcgivney, WT, Bennett, D, Friedlander, IR, Greenberg, J, Jacobs, LD, Margulis, AR, Meaney, TF, Oldendorf, WH, Pohost, GM, Sisson, GA, Spetzler, R, Wagner, HN, Canby, RC, Davis, K & Bennett, DR 1988, 'Magnetic Resonance Imaging of the Cardiovascular System: Present State of the Art and Future Potential', JAMA: The Journal of the American Medical Association, vol. 259, no. 2, pp. 253-259. https://doi.org/10.1001/jama.1988.03720020055037

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abstract = "State-of-the-art magnetic resonance imaging (MRI) generates high-resolution images of the cardiovascular system. Conventional MRI techniques provide images in six to ten minutes per tomographic slice. New strategies have substantially improved the speed of imaging. The technology is relatively expensive, and its cost-effectiveness remains to be defined in relation to other effective, less expensive, and noninvasive technologies, such as echocardiography and nuclear medicine. The ultimate role of MRI will depend on several factors, including the development of specific applications such as (1) noninvasive angiography, especially of the coronary arteries; (2) noninvasive, highresolution assessment of regional myocardial blood flow distribution (eg, using paramagnetic contrast agents); (3) characterization of myocardial diseases using proton-relaxation property changes; and (4) evaluation of in vivo myocardial biochemistry. The three-dimensional imaging capability and the ability to image cardiovascular structures without contrast material give MRI a potential advantage over existing noninvasive diagnostic imaging techniques. This report analyzes current applications of MRI to the cardiovascular system and speculates on their future.",

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AU - Pohost, Gerald M.

AU - Sisson, George A.

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AU - Wagner, Henry N.

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AU - Bennett, Donald R.

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N2 - State-of-the-art magnetic resonance imaging (MRI) generates high-resolution images of the cardiovascular system. Conventional MRI techniques provide images in six to ten minutes per tomographic slice. New strategies have substantially improved the speed of imaging. The technology is relatively expensive, and its cost-effectiveness remains to be defined in relation to other effective, less expensive, and noninvasive technologies, such as echocardiography and nuclear medicine. The ultimate role of MRI will depend on several factors, including the development of specific applications such as (1) noninvasive angiography, especially of the coronary arteries; (2) noninvasive, highresolution assessment of regional myocardial blood flow distribution (eg, using paramagnetic contrast agents); (3) characterization of myocardial diseases using proton-relaxation property changes; and (4) evaluation of in vivo myocardial biochemistry. The three-dimensional imaging capability and the ability to image cardiovascular structures without contrast material give MRI a potential advantage over existing noninvasive diagnostic imaging techniques. This report analyzes current applications of MRI to the cardiovascular system and speculates on their future.

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Magnetic Resonance Imaging of the Cardiovascular System: Present State of the Art and Future Potential

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