Development and validation of an optimized finite element model of the human orbit - 07/02/19
, V. Martinez b , N. Graillon a , Y. Godio-Raboutet b , L. Thollon b , L. Guyot c Bienvenue sur EM-consulte, la référence des professionnels de santé.
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Abstract |
Introduction |
The authors’ main purpose was to develop a detailed finite element model (FEM) of the human orbit and to validate it by analyzing its behavior under the stress of blunt traumas.
Materials and methods |
A pre-existing 3D FEM of a human head was modified and used in this study. Modifications took into account preliminary research carried out on PubMed database. Data from a CT scan of the head were computed with Mimics® software to re-create the skull geometry. The mesh production, the model's properties and the simulations of blunt orbital traumas were conducted on Hyperworks® software.
Results |
The resulting 3D FEM was composed of 640 000 elements and was used to perform blunt trauma simulations on an intact orbit. A total of 27 tests were simulated. Fifteen tests were realized with a metallic cylinder impactor; 12 tests simulated a hit by a closed fist. In all the tests conducted (27/27), the orbital floor was fractured. Fracture patterns were similar to those found in real clinical situations according to the buckling and hydraulic theories of orbital floor fractures.
Discussion |
The similitude between the fracture patterns produced on the model and those observed in vivo allows for a validation of the model. This model constitutes, at the authors knowledge, the most sophisticated one ever developed.
Le texte complet de cet article est disponible en PDF.Keywords : Finite element analysis, Maxillofacial, Trauma, Orbit, Biomechanics
Plan
Vol 120 - N° 1
P. 16-20 - février 2019 Retour au numéro
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