Abstract
To segment jaw structures in both open and closed mouth states from cone beam CT images and to preserve the true structures of trabecular bones. Segmentation algorithms of the mandible and maxilla were designed based on their different structures. We detected edges in volume and segment edges of the mandible and maxilla whether the mouth of a patient was open or closed. The internal structures of the mandible and maxilla were preserved by a morphological method with different parameters, respectively. An axial plane corresponding to the bottom of the hard palate was identified so that the bone structures of the maxilla above this plane were removed. Finally, the mandibular surface was smoothed by a simple thresholding method, and the maxillary surface was optimized by a geodesic active contours method. The 3D jaw model was segmented automatically by our proposed procedure with high accuracy. The average dice coefficients of the mandible and maxilla were equal to 0.9709 and 0.9420, respectively. The proposed jaw segmentation algorithm is automatic and knowledge-driven. The segmented jaws truly demonstrate the cortical and trabecular bone structures. It may potentially assist doctors in diagnosis and surgical planning.
Highlights
In medical image analysis, a good view of an organ is essential for pathological diagnosis and treatment
cone beam CT (CBCT) images are frequently applied to maxillofacial surgical planning [4]
To generate a 3D jaw model, we propose an automatic algorithm to segment the mandible and maxilla with trabecular bone preservation from CBCT images
Summary
A good view of an organ is essential for pathological diagnosis and treatment. The bone mineral density and structures of a jaw are linked to primary operational success such as tooth implantation [1,2]. They can be assessed through X-ray-based radiographic images, such as cone beam CT (CBCT). CBCT images are frequently applied to maxillofacial surgical planning [4]. An appropriate patient model of the jaw structure is necessary for maxillofacial surgical planning [10]. To generate a 3D jaw model, we propose an automatic algorithm to segment the mandible and maxilla with trabecular bone preservation from CBCT images
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