In this chapter, we present novel vertebral body segmentation methods in computed tomography (CT)
images. Three pieces of information (intensity, spatial interaction, and shape) are modeled to optimize new
probabilistic energy functions; and hence to obtain the optimum segmentation. The information of the
intensity and spatial interaction are modeled using the Gaussian and Gibbs distribution, respectively. A
shape model is proposed using new probabilistic functions to enhance the segmentation results. The
models are generic shape information which is obtained using the cervical, lumbar, and thoracic spinal
regions. The proposed methods are validated with clinical CT images and on a phantom with various
Gaussian noise levels. This study reveals that the proposed methods are robust under various noise levels,
less variant to the initialization, and quite faster than alternative methods. Applications on bone mineral
density (BMD) measurements of vertebral body are given to illustrate the accuracy of the proposed
segmentation approach.
Research Member
Research Department
Research Year
2015
Research Journal
Lecture Notes Computational Vision and Biomechanics, Shuo Li and Jianhua Yao: Spinal Imaging and Image Analysis
Research Publisher
Springer
Research Vol
18
Research Rank
1
Research_Pages
381-437
Research Website
http://www.springer.com/engineering/biomedical+engineering/book/978-3-319-12507-7
Research Abstract