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Colque, V., (2019). El análisis de elementos finitos en ortodoncia [Trabajo académico, Universidad Inca Garcilaso de la Vega]. https://hdl.handle.net/20.500.11818/4295
Colque, V., El análisis de elementos finitos en ortodoncia [Trabajo académico]. : Universidad Inca Garcilaso de la Vega; 2019. https://hdl.handle.net/20.500.11818/4295
@misc{renati/860629,
title = "El análisis de elementos finitos en ortodoncia",
author = "Colque Jamachi, Vanesa Beatriz",
publisher = "Universidad Inca Garcilaso de la Vega",
year = "2019"
}
Title: El análisis de elementos finitos en ortodoncia
Authors(s): Colque Jamachi, Vanesa Beatriz
Advisor(s): Infantes Vargas, Valery Jorge
Keywords: Modelado; Malla; Fuerza aplicada; Estrés; Deformación; Mesh; Modeling; Applied force; Stress; Deformation
Issue Date: 25-Apr-2019
Institution: Universidad Inca Garcilaso de la Vega
Abstract: En la práctica clínica durante el tratamiento ortodóntico, es importante evaluar las fuerzas que se generan durante el tratamiento y evaluar la respuesta fisiológica frente a esas fuerzas. El desarrollo de nuevas tecnologías ha permitido el uso del análisis de elementos finitos en el campo de investigación en ortodoncia y en la ortopedia maxilofacial. Esto con el uso de programas informáticos que permiten la digitalización de las imágenes del complejo cráneofacial y de las estructuras dentarias. El presente trabajo describe la aplicación del análisis de elementos finitos en ortodoncia, éste análisis se basa en el principio de los trabajos virtuales que imitan exactamente a los de un cuerpo real; es decir, en la representación de un cuerpo o estructura por un ensamble de subdivisiones llamadas elementos, esta representación permite una predicción cercana a la realidad, y entender cómo es que fuerzas como las que se aplican en la protracción, disyunción, distalización, verticalización, intrusión afectan en la biomecánica ortodóntica.
El presente estudio muestra como este análisis proporciona datos cuantitativos y detallados sobre las posibles reacciones fisiológicas que pueden ocurrir en los tejidos posterior a la aplicación de una fuerza ortodóntica, ésta tiene la ventaja de ser un método no invasivo y preciso, que permite anticipar la visualización de las respuestas tisulares mediante la observación de áreas de estrés creadas a partir de mecanismos de ortodoncia aplicados.
In clinical practice during orthodontic treatment, it is important to evaluate the forces generated during treatment and evaluate the physiological response to these forces. The development of new technologies has allowed the use of finite element analysis in the field of research in orthodontics and maxillofacial orthopedics. This with the use of computer programs that allow the digitalization of the images of the craniofacial complex and the dental structures. This paper describes the application of finite element analysis in orthodontics, this analysis is based on the principle of virtual works that imitate exactly those of a real body; that is, in the representation of a body or structure by an assembly of subdivisions called elements, this representation allows a prediction close to reality, and understand how it is that forces such as those applied in protraction, disjunction, distalization, verticalization, intrusion affect in orthodontic biomechanics. The present study shows how this analysis provides quantitative and detailed data on the possible physiological reactions that can occur in the tissues after the application of an orthodontic force, this has the advantage of being a non-invasive and precise method, which allows to anticipate the visualization of tissue responses by observing areas of stress created from orthodontic mechanisms applied.
In clinical practice during orthodontic treatment, it is important to evaluate the forces generated during treatment and evaluate the physiological response to these forces. The development of new technologies has allowed the use of finite element analysis in the field of research in orthodontics and maxillofacial orthopedics. This with the use of computer programs that allow the digitalization of the images of the craniofacial complex and the dental structures. This paper describes the application of finite element analysis in orthodontics, this analysis is based on the principle of virtual works that imitate exactly those of a real body; that is, in the representation of a body or structure by an assembly of subdivisions called elements, this representation allows a prediction close to reality, and understand how it is that forces such as those applied in protraction, disjunction, distalization, verticalization, intrusion affect in orthodontic biomechanics. The present study shows how this analysis provides quantitative and detailed data on the possible physiological reactions that can occur in the tissues after the application of an orthodontic force, this has the advantage of being a non-invasive and precise method, which allows to anticipate the visualization of tissue responses by observing areas of stress created from orthodontic mechanisms applied.
Link to repository: https://hdl.handle.net/20.500.11818/4295
Discipline: Estomatología
Grade or title grantor: Universidad Inca Garcilaso de la Vega. Facultad de Estomatología
Grade or title: Especialista en ortodoncia y ortopedia maxilar
Register date: 27-Jun-2019
This item is licensed under a Creative Commons License