论文信息 - 3D Dynamic Model of the Coronary Tree

3D Dynamic Model of the Coronary Tree

This article presents a new approach to build a kinetic elastic model of the coronar,, tree. Our purpose is to use this model in order to achieve spatio-temporal understanding of the cardiovascular dynamics. A semantic network was developed to make a static structural model. Then, to estimate the motion, the network uses a Kalman filtering device guided by the trajectory model. The vessel deformation is detected in an energy-minimization procedure applying the active contour model (snake) technique. A complete spatio-temporal description of the vessels (not just of sparse set of points) is obtained using a compact bi-dimensional B-spline representation where the movement of the vessel model is uniquely determined from the movement of the B-spline control points. In our two-dimensional B-spline dynamic model the directions determined by the iso-parametric curves correspond to the spatial and temporal vessel position, respectively.

Petia Radeva | Juan Jose Villanueva | R Toledo

[1] P. Radeva,et al. 3D vessel reconstruction from biplane angiograms using snakes , 1998, Computers in Cardiology 1998. Vol. 25 (Cat. No.98CH36292).

[2] E. Bolson,et al. Intrathoracic spatial location of specified coronary segments on the normal human heart. Applications in quantitative arteriography, assessment of regional risk and contraction, and anatomic display. , 1988, Circulation.

[3] A.C.M. Dumay,et al. Image reconstruction from biplane angiographic projections , 1992 .

[4] Milan Sonka,et al. Adaptive approach to accurate analysis of small-diameter vessels in cineangiograms , 1997, IEEE Transactions on Medical Imaging.

[5] Arthur Gelb,et al. Applied Optimal Estimation , 1974 .

[6] 김인철,et al. Consistent Labeling Problem을 풀기 위한 휴우리스틱 탐색 기법 , 1988 .

[7] Petia Radeva,et al. A snake for model-based segmentation , 1995, Proceedings of IEEE International Conference on Computer Vision.

[8] R M Haralick,et al. The consistent labeling problem: part I. , 1979, IEEE transactions on pattern analysis and machine intelligence.

[9] B. Barsky,et al. An Introduction to Splines for Use in Computer Graphics and Geometric Modeling , 1987 .