Title :
Geometric parameter generation for three-dimensional movement analysis in digital subtraction angiography
Author :
Puentes, J. ; Roux, C. ; Garreau, M. ; Coatrieux, JL
Author_Institution :
Simon Bolivar Univ., Caracas, Venezuela
Abstract :
A method to geometrically characterize three-dimensional (3-D) vascular structures, in order to achieve understanding of cardiac kinematics through analysis of local deformations is presented. Automatic 3-D reconstruction and motion estimation of four relevant arteries centerlines, is obtained for a complete cardiac angiography sequence. Reconstructed centerlines, are parametrized and approximated using B-Splines to calculate curvature and torsion expressed in Frenet frame basis. Inertial axis and virtual reference point are other geometric characteristics. These features allow one to obtain a detailed analysis of local deformations as well as a first glance of global movement. The analysis of their behavior along quasi-homogeneous segments give access to symbols for organ kinematics description
Keywords :
angiocardiography; image reconstruction; image sequences; medical image processing; 3-D vascular structures; B-Splines; Frenet frame basis; arteries centerlines; automatic 3-D reconstruction; cardiac kinematics; complete cardiac angiography sequence; curvature; digital subtraction angiography; geometric parameter generation; global movement; inertial axis; local deformations; motion estimation; organ kinematics; quasi-homogeneous segments; reconstructed centerlines; three-dimensional movement analysis; torsion; virtual reference point; Angiography; Arteries; Image analysis; Image reconstruction; Image sequences; Kinematics; Kinetic theory; Motion analysis; Muscles; Myocardium;
Conference_Titel :
Computers in Cardiology 1995
Conference_Location :
Vienna
Print_ISBN :
0-7803-3053-6
DOI :
10.1109/CIC.1995.482573
