An eFTD-VP framework for efficiently generating patient-specific anatomically detailed facial soft tissue FE mesh for craniomaxillofacial surgery simulation |
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| Authors: | Xiaoyan Zhang Daeseung Kim Shunyao Shen Peng Yuan Siting Liu Zhen Tang Guangming Zhang Xiaobo Zhou Jaime Gateno Michael A K Liebschner James J Xia |
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| Institution: | 1.College of Computer Science and Software Engineering,Shenzhen University,Shenzhen,China;2.Department of Neurosurgery,Baylor College of Medicine,Houston,USA;3.Department of Oral and Craniomaxillofacial Surgery, Shanghai 9th Peoples Hospital,Shanghai Jiaotong University School of Medicine and Shanghai Key Laboratory of Stomatology,Shanghai,China;4.Department of Radiology,Wake Forest University School of Medicine,Winston-Salem,USA;5.Department of Surgery (Oral and Maxillofacial Surgery),Weill Medical College of Cornell University,New York,USA;6.Department of Oral and Maxillofacial Surgery,Houston Methodist Research Institute,Houston,USA |
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| Abstract: | Accurate surgical planning and prediction of craniomaxillofacial surgery outcome requires simulation of soft tissue changes following osteotomy. This can only be achieved by using an anatomically detailed facial soft tissue model. The current state-of-the-art of model generation is not appropriate to clinical applications due to the time-intensive nature of manual segmentation and volumetric mesh generation. The conventional patient-specific finite element (FE) mesh generation methods are to deform a template FE mesh to match the shape of a patient based on registration. However, these methods commonly produce element distortion. Additionally, the mesh density for patients depends on that of the template model. It could not be adjusted to conduct mesh density sensitivity analysis. In this study, we propose a new framework of patient-specific facial soft tissue FE mesh generation. The goal of the developed method is to efficiently generate a high-quality patient-specific hexahedral FE mesh with adjustable mesh density while preserving the accuracy in anatomical structure correspondence. Our FE mesh is generated by eFace template deformation followed by volumetric parametrization. First, the patient-specific anatomically detailed facial soft tissue model (including skin, mucosa, and muscles) is generated by deforming an eFace template model. The adaptation of the eFace template model is achieved by using a hybrid landmark-based morphing and dense surface fitting approach followed by a thin-plate spline interpolation. Then, high-quality hexahedral mesh is constructed by using volumetric parameterization. The user can control the resolution of hexahedron mesh to best reflect clinicians’ need. Our approach was validated using 30 patient models and 4 visible human datasets. The generated patient-specific FE mesh showed high surface matching accuracy, element quality, and internal structure matching accuracy. They can be directly and effectively used for clinical simulation of facial soft tissue change. |
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