Title :
Combined statistical and geometrical 3D segmentation and measurement of brain structures
Author :
Ballester, Miguel Ángel González ; Zisserman, Andrew ; Brady, Michael
Author_Institution :
Oxford Univ., UK
Abstract :
Presents a novel method for three-dimensional segmentation and measurement of volumetric data based on the combination of statistical and geometrical information. The problem of shape representation of very complex three-dimensional structures, such as the brain cortex, is approached by combining the use of a discrete 3D mesh (the simplex mesh) with the construction of a smooth surface using triangular Gregory-Bezier patches. A Gaussian model for the tissues present in the image is adopted and a classification procedure which also estimates and corrects for the bias field present in the MRI is used. Confidence bounds are produced for all the measurements, thus obtaining a distribution on the position of the surface segmenting the image as the output of the method. Performance is tested both on real data and simulations of MR volumes, which provide ground truth. The method is also compared with other existing techniques
Keywords :
biomedical MRI; brain; image classification; image segmentation; medical image processing; Gaussian model; MR volumes simulation; bias field; brain cortex; brain structures measurement; classification procedure; combined statistical/geometrical 3D segmentation; confidence bounds; discrete 3D mesh; magnetic resonance imaging; medical diagnostic imaging; simplex mesh; triangular Gregory-Bezier patches; Brain; Image segmentation; Magnetic resonance imaging; Medical treatment; Nervous system; Position measurement; Robots; Shape; Statistics; Testing;
Conference_Titel :
Biomedical Image Analysis, 1998. Proceedings. Workshop on
Conference_Location :
Santa Barbara, CA
Print_ISBN :
0-8186-8460-7
DOI :
10.1109/BIA.1998.692379
