Finite Element Analysis of Three Patterns Of Internal Fixation of the Mandibular Subcondylar Fractures (Comparative Study)

Document Type : Original Article

Authors

1 OMFS Nasser institute hospital

2 Department of Oral and Maxillofacial Surgery Ain Shams University.

3 Faculty of Engineering, Beni-Suef University New Beni-Suef City, Shark El-Nile

Abstract

Aim: The aim of our study is to compare three plating techniques (single 2.3 plate, two mini-plates and rhomboid plate) biomechanically, and to conclude which one is the most stable in the treatment of subcondylar fractures.
Materials and methods: 3D model of human mandible was constructed on work bench solid works program and manipulated to mimic true subcondylar fracture with proximal and distal parts fully separated, three designs of plating techniques was constructed and wrapped on the mandible model, the final three models was exported to FEM software as solid models with masticatory muscles molded bilaterally in addition to contralateral molar clenching task, linear elastic solution was constructed for each model and results was assigned according to von misses stresses upon hardware, jaw bone and total model deformation in each configuration..
Result: Double plating 2.0 design showed optimal results compared to rhombic plate and single 2.3 plates.
Conclusion: Double plating 2.0 design is the gold standard and the best method of fixation for tha mandibular subcondylar fractures provided that available space is enough for the application of the two plates.

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