Atac, M. S.Erkmen, E.Yucel, E.Kurt, A.2024-07-052024-07-052008300901-502710.1016/j.ijom.2008.10.0042-s2.0-58149470719https://doi.org/10.1016/j.ijom.2008.10.004https://hdl.handle.net/20.500.14411/1031ERKMEN, Erkan/0000-0002-4746-5281The study aimed to calculate the location and intensity of the maximum stress fields on the fixation plates and surrounding maxilla following Le Fort I osteotomies after advancement procedures using three-dimensional finite element analysis. The models were generated using skull CT scan data. Le Fort I osteotomy Simulations were made and two separate impacted maxillary models were designed. The ADV-2 model has 2 plate fixations bilaterally at the piriform rims, the ADV-4 model has 4 plate fixations at the zygomatic buttresses and piriform rims. The stress fields on bone, plate and screws were computed for each model. Posterior occlusal loads were simulated on one side in the molar-premolar region, in all three directions, reflecting the chewing forces. The increased locations of highest Von Mises stresses on the plates and highest maximum principle stresses on the bones were determined in ADV-2 models especially Under horizontal and oblique loads when compared with ADV-4 models. Evaluation of the highest Von Mises Stress Values and maximum principal stress revealed that oblique load in the ADV-2 model received the highest values. 4-plate fixation following Le Fort I advancement Surgery exerts less stress on the maxillary bones and fixation materials than 2-plate fixation.eninfo:eu-repo/semantics/closedAccess3D finite element analysisLe Fort I osteotomyadvancement surgeryinternal fixationArticleQ2371211171124WOS:00026196510000819027268