Title :
From 2D markers in MIP to 3D vessel segmentation: A fuzzy paradigm for connected filtering
Author :
Dufour, Alexandre Cecilien ; Naegel, Benoit ; Ronse, C. ; Baruthio ; Wolff, V. ; Passat, Nicolas
Author_Institution :
ICube, Univ. de Strasbourg, Strasbourg, France
Abstract :
Connected filters, and in particular those relying on component trees, can be involved in vessel filtering and segmentation tasks. We propose a new component tree-based segmentation method that enables to easily obtain vascular volumes from 3D data, by simply providing 2D markers from MIP visualisations. This approach gathers the advantages of component trees (low algorithmic cost) and the user-friendly (fuzzy) handling of 3D images via 2D representations, leading to an ergonomic and fast tool. It has been successfully used for segmenting a large dataset of MRAs and CTAs visualizing Willis polygons, in the clinical context of stenosis detection.
Keywords :
biomedical MRI; blood vessels; computerised tomography; diseases; filtering theory; fuzzy systems; human computer interaction; image segmentation; medical image processing; trees (mathematics); 2D markers; 3D data; 3D images; 3D vessel segmentation; MIP visualisations; Willis polygons; component trees; computed tomography angiography; connected filtering; fuzzy handling; fuzzy paradigm; low algorithmic cost; magnetic resonance angiography; segmentation tasks; stenosis detection; tree-based segmentation method; user-friendly; vascular volumes; vessel filtering; Biomedical imaging; Context; Image analysis; Image segmentation; Morphology; Transfer functions; Visualization; Angiographic imaging; component tree; fuzzy markers; mathematical morphology; maximum intensity projection; vessel segmentation;
Conference_Titel :
Biomedical Imaging (ISBI), 2013 IEEE 10th International Symposium on
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4673-6456-0
DOI :
10.1109/ISBI.2013.6556626
