Orthodontic System Modeled and Simulated with the Lingual Technique to Assess Tooth Forces-Reference-Cited by-同舟云学术

Orthodontic System Modeled and Simulated with the Lingual Technique to Assess Tooth Forces

Published:2024-05-31 Issue:11 Volume:14 Page:1171
ISSN:2075-4418
Container-title:Diagnostics
language:en
Short-container-title:Diagnostics

Author:

Hazem Abbas¹,Mărășescu Felicia Ileana¹,Țuculină Mihaela Jana²^ORCID,Popescu Alexandru Dan²^ORCID,Popa Dragoș Laurențiu³,Mihai Lelia Laurența⁴,Cumpătă Cristian Niky⁵,Iliescu Alexandru⁶,Mărășescu Petre⁷,Dascălu Ionela Teodora¹

Affiliation:

1. Department of Orthodontics, Faculty of Dental Medicine, University of Medicine and Pharmacy of Craiova, 200349 Craiova, Romania

2. Department of Endodontics, Faculty of Dental Medicine, University of Medicine and Pharmacy of Craiova, 200349 Craiova, Romania

3. Department of Automotive, Transportation and Industrial Engineering, Faculty of Mechanics, University of Craiova, 200478 Craiova, Romania

4. Department of Periodontology, Faculty of Dental Medicine, University Titu Maiorescu of Bucharest, 031593 Bucharest, Romania

5. Department of Oromaxillofacial Surgery, Faculty of Dental Medicine, University Titu Maiorescu of Bucharest, 031593 Bucharest, Romania

6. Department of Oral Rehabilitation, Faculty of Dental Medicine, University of Medicine and Pharmacy of Craiova, 200349 Craiova, Romania

7. Department of Dental Prothesis Tehnology, Faculty of Dental Medicine, University of Medicine and Pharmacy of Craiova, 200349 Craiova, Romania

Abstract

CBCT (cone beam computed tomography) is an imaging investigation that provides three-dimensional (3D) images of craniofacial structures. The purpose of this study is to determine the mechanical behavior of an orthodontic system where the lingual treatment technique was used in a 25-year-old female patient from whom a set of CBCT scans was used. CBCT images were processed through software programs such as Invesalius, Geomagic, and Solid Works, to create models containing virtual solids. These models were then imported into Ansys Workbench 2019 R3 (a finite element method software program) for successive simulations to generate displacement maps, deformations, stress distributions, and diagrams. We observed that in the lingual technique, the lowest force occurring on the maxillary teeth is at 1.1, while the highest force appears at 2.3. In the mandible, the lowest force occurs at 4.6, and the highest force at 3.1. The values of the forces and the results of the finite element method can represent a basis for the innovation of new orthodontic springs and also of bracket elements. Thus, by using new technologies, orthodontic practice can be significantly improved for the benefit of patients. Other virtual methods and techniques can be used in future studies, including the application of virtual reality for orthodontic diagnosis.

Funder

Doctoral School of the University of Medicine and Pharmacy of Craiova

Publisher

MDPI AG

Link

https://www.mdpi.com/2075-4418/14/11/1171/pdf

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