Title :
Graph-based energy-minimization segmentation and PCA applied to internal carotid extraction in neurological PET
Author :
Parker, Brian ; Feng, David
Author_Institution :
Dept. of Comput. Sci., Sydney Univ., NSW, Australia
Abstract :
An unseeded, graph-theoretic segmentation algorithm based on Mumford-Shah energy minimization is applied to segmentation of brain FDG dynamic positron emission tomography data after preprocessing by principal component analysis, for the automated extraction of regions of interest, and, in particular, extraction of the internal carotid arteries and venous sinuses for the noninvasive estimation of the input plasma time activity curve. Evaluation on clinical FDG brain PET studies show that the internal carotids and venous sinuses can be robustly segmented in typical dynamic PET data sets, allowing for the fully automatic estimation of the arterial input curve.
Keywords :
biological organs; brain; graph theory; image segmentation; medical image processing; neurophysiology; positron emission tomography; principal component analysis; Mumford-Shah energy minimization; PCA; automated extraction; automatic arterial input curve estimation; brain FDG dynamic positron emission tomography data; clinical FDG brain PET studies; graph-based energy-minimization segmentation; input plasma time activity curve; internal carotid arteries; internal carotid extraction; neurological PET; noninvasive estimation; principal component analysis; regions of interest; unseeded graph-theoretic segmentation algorithm; venous sinuses; Clustering algorithms; Computer science; Covariance matrix; Data mining; Data preprocessing; Image segmentation; Information technology; Minimization methods; Positron emission tomography; Principal component analysis;
Conference_Titel :
Nuclear Science Symposium Conference Record, 2003 IEEE
Print_ISBN :
0-7803-8257-9
DOI :
10.1109/NSSMIC.2003.1352425
