doiSerbia

Stress and strain distribution in the lower jaw with shortened dental arch - a finite element method study

Milić-Lemić Aleksandra (Faculty of Dental Medicine, Department of Prosthodontics, Belgrade)
Tanasić Ivan (Medical Health Center Obrenovac, Belgrade)
Tihaček-Šojić Ljiljana (Faculty of Dental Medicine, Department of Prosthodontics, Belgrade)

Introduction/Objective. The absence of functional loading due to molar loss might cause changes to the microstructure of the bone. Therefore we investigated and visualized deformation and strain pattern distribution of the mandibule with full arch dentition (FDA) and shortened dental arches (SDA) during occlusion. Methods. A 3D model of an adult cadaveric dentate mandible, without pathological and traumatic damages, was developed based on CT scan images, set to 0.7 mm slice thickness. The scanned slices were imported into software where the bone and teeth were identified and modelled separately based on image density thresholding. Using the software and based on the grey-scale analysis of the slices initial meshes for the cortical, cancellous bone and teeth were generated. Results. Highest stress/strain values were registered in the structures adjacent to molars i.e. molar region of processus alveolaris assigned by blue color in FDA model. Similar to FDA, the SDA models exibited deformation with evident highest strain (9.33%) at the processus coronoideus and mandibular angle. Тhe highest overall stress (5 MPa) and strain (6.67%) was found in the mandibular intercanine segment of the SDA model, considering the mandibular body. Conclusion. Finite element method can be employed as a powerfull tool for visualization of the stress and strain of the loaded mandible models with full and shortened dental arches. It was registered that molar support loss caused higher stress and strain in SDAs compared to FDA model.

Keywords: partially edentulous mandible, digital image correlation method, removable partial denture