References
Akima, H. (1970): ‘A new method of interpolation and smooth curve fitting based on local procedures,’J. ACM,17, pp. 589–602
Asakura, T., andKarino, T. (1990); ‘Flow patterns and spatial distribution of atherosclerotic lesions in human coronary arteries,’Circ. Res.,66, pp. 1045–1065
Azhari, H., Sideman, S., Beyar, R., Grenadier, E., andDinnar, U. (1987): ‘An analytical descripter of 3D geometry: Application to the analysis of the left ventricle shape and contraction,’IEEE Trans.,BME-34, pp. 345–355
Azhari, H., Sideman, S., Weiss, J. L., Shapiro, E. P., Weisfeldt, M. L., Graves, W. L., Rogers, W. J., andBeyar, R. (1990): ‘Three-dimensional mapping of acute ischemic regions using MRI: wall thickening versus motion analysis,’Am. J. Physiol. (Heart Circ. Physiol. 28),259, pp. H1492-H1503
Azhari, H., Gath, I., Beyar, R., Marcus, M. L., andSideman, S. (1991): ‘Discrimination between healthy and diseased hearts by spectral decomposition of their left ventricular three dimensional geometry,’Trans. IEEE,10, pp. 207–215
Barth, K., Eicker, B., Koch, R., andMarhoff, P. (1988): ‘Automated three-dimensional recognition of the coronary three with clinical DSA image pairs’in ‘Computers in cardiology’ (IEEE Computer Society) pp. 187–190
Beyar, R., Halmann, M., Nevo, S., Grenedier, E., Markiewicz, W., andSideman, S. (1992): ‘Geometrical 3D reconstruction of coronary stenosis; Software for objective assessment of stenosis hemodynamic significance (abstract).’ American College of Cardiology, April 1992, Dallas, Texas
Beyar, R., Shapiro, E. P., Graves, W. H., Rogers, W. J., Guier, W., Zerhouni, E. A., Soulen, R., Weisfeldt, M. L., andWeiss, J. L. (1990): ‘Quantification and validation of left ventricular wall thickening by a three-dimensional volume element magnetic resonance imaging approach,’Circ.,81, pp. 297–307
Coppini, G., Demi, M., Mennimi, R., andValli, G. (1991): ‘Three dimensional knowlege driven reconstruction of coronary trees,’Circ. Res.,57, pp. 341–353
Hulzebosch, A. A., Slump, C. H., andViergever, M. A. (1990): ‘Three dimensional reconstruction of stenosed coronary artery segments with assessment of the flow impedance,’Int. J. Cardiac Imag.,5, pp. 135–143
Lessick, J., Sideman, S., Azhari, H., Marcus, M., Grenadier, E., andBeyar, R. (1991): ‘Regional three-dimensional geometry and function of left ventricles with fibrous aneurysms: a cine-computed tomography study,’Circ.,84, pp. 1072–1086
Marcus, M. L. (1983): ‘Coronary circulation in health and disease’ (McGraw-Hill, New York) pp. 3–21
Parmley, W. W., Chuck L., Kivowitz, C., Matloff, J. M., andSwan, H. J. C. (1973): ‘In vitro lengthtension relations of human ventricular aneurysms,’Am. J. Cardiol.,32, pp. 889–894
Peifer, J. W., Ezquerra, N. F., Cooke, C. D., Mullick, R., Klein, L., Hyche, M. E., andGarcia, E. V. (1990): ‘Visualization of multimodality cardiac imaging,’IEEE Trans.,BME-37, (8), pp. 744–756
Pope, D. L., Van Bree, R. E., andParker, D. L. (1987): Cine 3-D reconstruction of moving coronary arteries from DSA images’in ‘Computers in cardiology’ (IEEE Computer Society) pp. 277–280
Rosenheck, S., Gotsman, M. S., Welber, S., Sapoznikov, D., Hasin, Y., Mosseri, M., Weiss, A. T., andLotan, C. (1990): ‘Angiographic pathology of the coronary arteries in acute mycardial infarction’in Sideman, S., andBeyar, R. (Eds.): ‘Imaging, analysis and simulation of the cardiac system’ (Freund Publ. House, Ltd., London), pp. 465–482
Saito, T., Misaki, M., Shirato, K., andTakishima, T. (1990): ‘Three dimensional quantitative coronary angiography,’IEEE Trans.,BME-37, pp. 768–777
Sideman, S. (1992): ‘Imaging as a diagnostic tool in heart research’in Sideman, S. (Ed.): ‘Medicine and Engineering: New Horizons for Advanced Technology (Neaman Press, Haifa) pp. 81–86
Taratorin, A., andSideman, S. (1994): ‘Constrained edge detection of left ventricular boundaries from 3D images of the human hearts,’IEEE Trans. Medical Imaging
Author information
Authors and Affiliations
Additional information
This work reflects the opinions and the recommendations of its authors only. It does not necessarily reflect the opinions of the Technion-Israel Institute of Technology, or of the Technion R&D Foundation, Ltd. The Technion R&D Foundation, Ltd. is not legally responsible for the data and the conclusions presented in this work, and the work does not constitute a directive or a recommendation of the Foundation.
Rights and permissions
About this article
Cite this article
Halmann, M., Sideman, S., Lessick, J. et al. Relating coronary perfusion to myocardial function using three-dimensional reconstruction of heart and coronary arteries. Med. Biol. Eng. Comput. 32 (Suppl 1), S144–S150 (1994). https://doi.org/10.1007/BF02523340
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02523340