Add to ORKGAim of the study. In our study we evaluated, by using a three-dimensional Finite Element Model, the effect of intrusive and extrusive forces applied during orthodontic treatment. Material and methods. A tridimensional image of the tooth was obtained, by creating a model with 1379 nodes and 976 finite elements. We selected two clinical situations frequently present during orthodontic treatment: the use of a force aiming to align the teeth according to the vertical dimension, through extrusion or intrusion, which exerts a compression or elongation effect on the periodontal complex. Results. The results showed that the use of high force determined an increased stress especially in the apical third of the root. Conclusions. The use of high forc...
The aim of this study was to analyze the stresses that develop by oblique and vertical forces in end...
The finite element method is a useful technique for measuring structural stress and for movement ana...
INTRODUCTION Biomechanical analysis of orthodontic tooth movement is complex, as many different tis...
The aim of orthodontic treatment is the displacement of teeth by means ofspecial appliances, like br...
Objective: Intrusion as a type of tooth movement is managed by different mechanothera-pies during va...
Introduction: Orthodontics a unique branch in dentistry is inter-related with biology, mathematics a...
This study was addressed to use knowledge about the orthodontic system with numerical simulation of ...
Orthodontic treatment in patients with no periodontal tissue breakdown vs. horizontal bone loss shou...
INTRODUCTION: The finite element method (FEM) is an engineering resource applied to calculate the st...
Objective: The purpose of this study was to analyze the stress distribution and the displacement pat...
Abstract: This study focuses on analysis of the biomechanical reactions within teeth displacements d...
Introduction: The aim was to evaluate the differences between labial and lingual application of an o...
The aim of this work was to model tooth movement in a more clinically-exact fashion, thanks to the u...
This study was addressed to use knowledge about the orthodontic system with numerical simulation of ...
The aim of this work was to model tooth movement in a more clinically-exact fashion, thanks to the u...
The aim of this study was to analyze the stresses that develop by oblique and vertical forces in end...
The finite element method is a useful technique for measuring structural stress and for movement ana...
INTRODUCTION Biomechanical analysis of orthodontic tooth movement is complex, as many different tis...
The aim of orthodontic treatment is the displacement of teeth by means ofspecial appliances, like br...
Objective: Intrusion as a type of tooth movement is managed by different mechanothera-pies during va...
Introduction: Orthodontics a unique branch in dentistry is inter-related with biology, mathematics a...
This study was addressed to use knowledge about the orthodontic system with numerical simulation of ...
Orthodontic treatment in patients with no periodontal tissue breakdown vs. horizontal bone loss shou...
INTRODUCTION: The finite element method (FEM) is an engineering resource applied to calculate the st...
Objective: The purpose of this study was to analyze the stress distribution and the displacement pat...
Abstract: This study focuses on analysis of the biomechanical reactions within teeth displacements d...
Introduction: The aim was to evaluate the differences between labial and lingual application of an o...
The aim of this work was to model tooth movement in a more clinically-exact fashion, thanks to the u...
This study was addressed to use knowledge about the orthodontic system with numerical simulation of ...
The aim of this work was to model tooth movement in a more clinically-exact fashion, thanks to the u...
The aim of this study was to analyze the stresses that develop by oblique and vertical forces in end...
The finite element method is a useful technique for measuring structural stress and for movement ana...
INTRODUCTION Biomechanical analysis of orthodontic tooth movement is complex, as many different tis...