AI Article Synopsis
- A new method for 3-D spinal image segmentation is proposed, utilizing a deformable integral spine model to accurately capture vertebral morphology.
- The method learns the appearance of vertebrae from multiple features in training images, using a necklace model to simplify the segmentation process by highlighting key landmarks.
- Additionally, string models add detail on spinal curvature variability and help constrain the model's deformation, demonstrating promising results for analyzing CT scans of the human lumbar spine.
Article Abstract
Segmentation of the spine directly from three-dimensional (3-D) image data is desirable to accurately capture its morphological properties. We describe a method that allows true 3-D spinal image segmentation using a deformable integral spine model. The method learns the appearance of vertebrae from multiple continuous features recorded along vertebra boundaries in a given training set of images. Important summarizing statistics are encoded into a necklace model on which landmarks are differentiated on their free dimensions. The landmarks are used within a priority segmentation scheme to reduce the complexity of the segmentation problem. Necklace models are coupled by string models. The string models describe in detail the biological variability in the appearance of spinal curvatures from multiple continuous features recorded in the training set. In the segmentation phase, the necklace and string models are used to interactively detect vertebral structures in new image data via elastic deformation reminiscent of a marionette with strings allowing for movement between interrelated structures. Strings constrain the deformation of the spine model within feasible solutions. The driving application in this work is analysis of computed tomography scans of the human lumbar spine. An illustration of the segmentation process shows that the method is promising for segmentation of the spine and for assessment of its morphological properties.
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| http://dx.doi.org/10.1109/TBME.2004.831540 | DOI Listing |
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