Diagnostics (May 2022)

Modeling and Simulating an Orthodontic System Using Virtual Methods

  • Stelian-Mihai-Sever Petrescu,
  • Mihaela Jana Țuculină,
  • Dragoș Laurențiu Popa,
  • Alina Duță,
  • Alex Ioan Sălan,
  • Ruxandra Voinea Georgescu,
  • Oana Andreea Diaconu,
  • Adina Andreea Turcu,
  • Horia Mocanu,
  • Andreea Gabriela Nicola,
  • Ionela Teodora Dascălu

DOI
https://doi.org/10.3390/diagnostics12051296
Journal volume & issue
Vol. 12, no. 5
p. 1296

Abstract

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Cone beam computed tomography (CBCT) is a modern imaging technique that uses X-rays to investigate the structures of the dento-maxillary apparatus and obtain detailed images of those structures. The aim of this study was to determine a functional mathematical model able to evaluate the elastic force intensity on each bracket and tube type element and the ways in which those components act on the orthodontic system being used. To analyze a real orthodontic system, we studied the case of a 13-year-old female patient. To transfer geometric information from tomographic images, we used the InVesalius software. This software can generate three-dimensional reconstructions based on sequences and files in the DICOM format and was purchased from CBCT equipment. We analyzed and processed the geometries of the converted tissues in InVesalius using the Geomagic software. After using the Geomagic software, we exported the resulting model to the SolidWorks software used in computer-aided design. In this software, the model is transformed into a virtual solid. After making the geometric model, we analyzed the model using the Ansys Workbench software, which incorporates finite element analysis techniques. Following the simulations, we obtained result maps, which showed the complete mechanical behavior of the analyzed structures.

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