Microcomputer based system for 3D reconstruction, simulation and dynamic animation of the heart

Menachem Halmann; Samuel Sideman; Uri Dinnar; Rafael Beyar

Microcomputer based system for 3D reconstruction, simulation and dynamic animation of the heart

Menachem Halmann, Samuel Sideman, Uri Dinnar, Rafael Beyar

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

A system for 3-D reconstruction, analysis, simulation and dynamic animation of the heart and the coronary arteries is reported. Using magnetic resonance cross-sectional or ultrasonic and angiographic long-axis images of the heart, the endocardial and epicardial contours are traced, interpolated and reconstructed in 3-D. The coronary tree is then superimposed on the 3-D shape using anatomical markers. Graphical capabilities include real-time animation, utilizing wire-frame, solid shading, semitransparent shading and different viewing angles. Simulation of geometrical deformations caused by variations in the arterial flow is achieved by defining the risk area of each coronary vessel, the flow-thickening relationship function and the actual relative flow in the simulated stenosed vessel and using these to simulate local ischemia by varying the dynamic 3-D shape of a normal heart. Assessment of local myocardial function is achieved by calculating local parameters such as thickening or wall motion.

Original language	English (US)
Title of host publication	Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings
Publisher	Publ by Alliance for Engineering in Medicine & Biology
Pages	540-541
Number of pages	2
Volume	11 pt 2
State	Published - 1989
Externally published	Yes
Event	Images of the Twenty-First Century - Proceedings of the 11th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. Part 2 - Seattle, WA, USA Duration: Nov 9 1989 → Nov 12 1989

Other

Other	Images of the Twenty-First Century - Proceedings of the 11th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. Part 2
City	Seattle, WA, USA
Period	11/9/89 → 11/12/89

ASJC Scopus subject areas

Bioengineering
General Engineering

Cite this

Microcomputer based system for 3D reconstruction, simulation and dynamic animation of the heart. / Halmann, Menachem; Sideman, Samuel; Dinnar, Uri et al.
Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings. Vol. 11 pt 2 Publ by Alliance for Engineering in Medicine & Biology, 1989. p. 540-541.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Halmann, M, Sideman, S, Dinnar, U & Beyar, R 1989, Microcomputer based system for 3D reconstruction, simulation and dynamic animation of the heart. in Annual International Conference of the IEEE Engineering in Medicine and Biology - Proceedings. vol. 11 pt 2, Publ by Alliance for Engineering in Medicine & Biology, pp. 540-541, Images of the Twenty-First Century - Proceedings of the 11th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. Part 2, Seattle, WA, USA, 11/9/89.

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abstract = "A system for 3-D reconstruction, analysis, simulation and dynamic animation of the heart and the coronary arteries is reported. Using magnetic resonance cross-sectional or ultrasonic and angiographic long-axis images of the heart, the endocardial and epicardial contours are traced, interpolated and reconstructed in 3-D. The coronary tree is then superimposed on the 3-D shape using anatomical markers. Graphical capabilities include real-time animation, utilizing wire-frame, solid shading, semitransparent shading and different viewing angles. Simulation of geometrical deformations caused by variations in the arterial flow is achieved by defining the risk area of each coronary vessel, the flow-thickening relationship function and the actual relative flow in the simulated stenosed vessel and using these to simulate local ischemia by varying the dynamic 3-D shape of a normal heart. Assessment of local myocardial function is achieved by calculating local parameters such as thickening or wall motion.",

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N2 - A system for 3-D reconstruction, analysis, simulation and dynamic animation of the heart and the coronary arteries is reported. Using magnetic resonance cross-sectional or ultrasonic and angiographic long-axis images of the heart, the endocardial and epicardial contours are traced, interpolated and reconstructed in 3-D. The coronary tree is then superimposed on the 3-D shape using anatomical markers. Graphical capabilities include real-time animation, utilizing wire-frame, solid shading, semitransparent shading and different viewing angles. Simulation of geometrical deformations caused by variations in the arterial flow is achieved by defining the risk area of each coronary vessel, the flow-thickening relationship function and the actual relative flow in the simulated stenosed vessel and using these to simulate local ischemia by varying the dynamic 3-D shape of a normal heart. Assessment of local myocardial function is achieved by calculating local parameters such as thickening or wall motion.

AB - A system for 3-D reconstruction, analysis, simulation and dynamic animation of the heart and the coronary arteries is reported. Using magnetic resonance cross-sectional or ultrasonic and angiographic long-axis images of the heart, the endocardial and epicardial contours are traced, interpolated and reconstructed in 3-D. The coronary tree is then superimposed on the 3-D shape using anatomical markers. Graphical capabilities include real-time animation, utilizing wire-frame, solid shading, semitransparent shading and different viewing angles. Simulation of geometrical deformations caused by variations in the arterial flow is achieved by defining the risk area of each coronary vessel, the flow-thickening relationship function and the actual relative flow in the simulated stenosed vessel and using these to simulate local ischemia by varying the dynamic 3-D shape of a normal heart. Assessment of local myocardial function is achieved by calculating local parameters such as thickening or wall motion.

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Microcomputer based system for 3D reconstruction, simulation and dynamic animation of the heart

Abstract

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ASJC Scopus subject areas

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