Fast automated segmentation of multiple objects via spatially weighted shape learning

Chandra, Shekhar S.; Dowling, Jason A.; Greer, Peter B.; Martin, Jarad; Wratten, Chris; Pichler, Peter; Fripp, Jurgen; Crozier, Stuart

Title: Fast automated segmentation of multiple objects via spatially weighted shape learning
Creator: Chandra, Shekhar S.; Dowling, Jason A.; Greer, Peter B.; Martin, Jarad; Wratten, Chris; Pichler, Peter; Fripp, Jurgen; Crozier, Stuart
Relation: Physics in Medicine and Biology Vol. 61, Issue 22, p. 8070-8084
Publisher Link: http://dx.doi.org/10.1088/0031-9155/61/22/8070
Publisher: Institute of Physics Publishing
Resource Type: journal article
Date: 2016
Description: Active shape models (ASMs) have proved successful in automatic segmentation by using shape and appearance priors in a number of areas such as prostate segmentation, where accurate contouring is important in treatment planning for prostate cancer. The ASM approach however, is heavily reliant on a good initialisation for achieving high segmentation quality. This initialisation often requires algorithms with high computational complexity, such as three dimensional (3D) image registration. In this work, we present a fast, self-initialised ASM approach that simultaneously fits multiple objects hierarchically controlled by spatially weighted shape learning. Prominent objects are targeted initially and spatial weights are progressively adjusted so that the next (more difficult, less visible) object is simultaneously initialised using a series of weighted shape models. The scheme was validated and compared to a multi-atlas approach on 3D magnetic resonance (MR) images of 38 cancer patients and had the same (mean, median, inter-rater) Dice's similarity coefficients of (0.79, 0.81, 0.85), while having no registration error and a computational time of 12-15 min, nearly an order of magnitude faster than the multi-atlas approach.
Subject: segmentation; active shape models; prostate; MRI; WPCA; multi-object
Identifier: http://hdl.handle.net/1959.13/1345358
Identifier: uon:29622
Identifier: ISSN:0031-9155
Language: eng
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