Artigo
Computer graphics applied to anatomy: a study of two bio-cad modeling methods on finite element analysis of human edentulous hemi-mandible
Registro en:
International Journal Of Morphology. Temuco: Soc Chilena Anatomia, v. 32, n. 3, p. 803-811, 2014.
0717-9502
10.4067/S0717-95022014000300011
S0717-95022014000300011
WOS:000346424200011
S0717-95022014000300011.pdf
8292894748745874
0000-0003-2787-6160
Autor
Rossi, Ana Claudia
Freire, Alexandre Rodrigues
Botacin, Paulo Roberto [UNESP]
Ferreira Caria, Paulo Henrique
Prado, Felippe Bevilacqua
Resumen
Modeling is a step to perform a finite element analysis. Different methods of model construction are reported in literature, as the Bio-CAD modeling. The purpose of this study was to perform a model evaluation and application using two methods of Bio-CAD modeling from human edentulous hemi-mandible on the finite element analysis. From CT scans of dried human skull was reconstructed a stereolithographic model. Two methods of modeling were performed: STL conversion approach (Model 1) associated to STL simplification and reverse engineering approach (Model 2). For finite element analysis was used the action of lateral pterygoid muscle as loading condition to assess total displacement (D), equivalent von-Mises stress (VM) and maximum principal stress (MP). Two models presented differences on the geometry regarding surface number (1834 (model 1); 282 (model 2)). Were observed differences in finite element mesh regarding element number (30428 nodes/16683 elements (model 1); 15801 nodes/8410 elements (model 2). D, VM and MP stress areas presented similar distribution in two models. The values were different regarding maximum and minimum values of D (ranging 0-0.511 mm (model 1) and 0-0.544 mm (model 2), VM stress (6.36E-04-11.4 MPa (model 1) and 2.15E-04-14.7 MPa (model 2) and MP stress (-1.43-9.14 MPa (model 1) and -1.2-11.6 MPa (model 2). From two methods of Bio-CAD modeling, the reverse engineering presented better anatomical representation compared to the STL conversion approach. The models presented differences in the finite element mesh, total displacement and stress distribution. Univ Estadual Campinas, Piracicaba Dent Sch, Anat Area, Dept Morphol, Piracicaba, SP, Brazil Univ Estadual Paulista, Fac Dent Aracatuba, Anat Area, Dept Basic Sci, Aracatuba, SP, Brazil Univ Estadual Paulista, Fac Dent Aracatuba, Anat Area, Dept Basic Sci, Aracatuba, SP, Brazil