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Isotropic and orthotropic mechanical properties of in vivo mandible model: Assessment of computational modelling

2024; Elsevier BV; Volume: 298; Linguagem: Inglês

10.1016/j.ijsolstr.2024.112875

1879-2146

Carla Tatiana Mota Anflor, Euclides Santanna, Frederico Felipe Antonio Oliveira Nascimento, Jhon Nero Vaz Goulart,

Orthodontics and Dentofacial Orthopedics

This study assesses the various methodologies utilized in the literature for computational mandible modeling and their implications on research findings. Previous studies have explored diverse material properties for the mandible, whether modeled as a single entity, in pairs, or as multiple sub-regions. Within this framework, a finite element model of an intact mandible was created using sliced tomographic images to examine the dispersion of stress fields resulting from different sets of bone material properties sourced from specialized literature. This research introduces the methodology employed in mandible model development, strategies for achieving high precision, and the influence of mechanical properties. Through an evaluation of models proposed by different authors, significant dispersion was observed, leading to disparities ranging from 4.4% to 67.4% in stress field outcomes at the symphysis region. RMSE served as an estimator to assess the similarity between these models. The findings suggest that the Caraveo (2008) and Palka (2020) models exhibit notable convergence in predicting stress fields in the symphysis regions. By incorporating good modeling practices in the intact mandible model, a more reliable representation is ensured, laying the groundwork for future investigations involving nonlinear contact phenomena and topology optimization.