DocumentCode
1225556
Title
Computational geometry for patient-specific reconstruction and meshing of blood vessels from MR and CT angiography
Author
Antiga, Luca ; Ene-Iordache, Bogdan ; Remuzzi, Andrea
Author_Institution
Clinical Res. Center for Rare Diseases Aldo e Cele Dacco, Mario Negri Inst. for Pharmacological Res., Ranica, Italy
Volume
22
Issue
5
fYear
2003
fDate
5/1/2003 12:00:00 AM
Firstpage
674
Lastpage
684
Abstract
Investigation of three-dimensional (3-D) geometry and fluid-dynamics in human arteries is an important issue in vascular disease characterization and assessment. Thanks to recent advances in magnetic resonance (MR) and computed tomography (CT), it is now possible to address the problem of patient-specific modeling of blood vessels, in order to take into account interindividual anatomic variability of vasculature. Generation of models suitable for computational fluid dynamics is still commonly performed by semiautomatic procedures, in general based on operator-dependent tasks, which cannot be easily extended to a significant number of clinical cases. In this paper, we overcome these limitations making use of computational geometry techniques. In particular, 3-D modeling was carried out by means of 3-D level sets approach. Model editing was also implemented ensuring harmonic mean curvature vectors distribution on the surface, and model geometric analysis was performed with a novel approach, based on solving Eikonal equation on Voronoi diagram. This approach provides calculation of central paths, maximum inscribed sphere estimation and geometric characterization of the surface. Generation of adaptive-thickness boundary layer finite elements is finally presented. The use of the techniques presented here makes it possible to introduce patient-specific modeling of blood vessels at clinical level.
Keywords
biomedical MRI; boundary-elements methods; computerised tomography; diseases; haemodynamics; image reconstruction; medical image processing; CT angiography; Eikonal equation; MR angiography; Voronoi diagram; adaptive-thickness boundary layer finite elements; blood vessels meshing; clinical cases; computational geometry; computational geometry techniques; harmonic mean curvature vectors distribution; medical diagnostic imaging; model geometric analysis; patient-specific reconstruction; semiautomatic procedures; Angiography; Arteries; Blood vessels; Computational geometry; Computational modeling; Computed tomography; Diseases; Humans; Magnetic resonance; Solid modeling; Algorithms; Angiography; Aorta, Abdominal; Arteriosclerosis; Blood Flow Velocity; Blood Vessels; Carotid Arteries; Computer Simulation; Finite Element Analysis; Humans; Image Interpretation, Computer-Assisted; Imaging, Three-Dimensional; Magnetic Resonance Imaging; Models, Cardiovascular; Subtraction Technique;
fLanguage
English
Journal_Title
Medical Imaging, IEEE Transactions on
Publisher
ieee
ISSN
0278-0062
Type
jour
DOI
10.1109/TMI.2003.812261
Filename
1207402
Link To Document