1. Three-dimensional nonlinear prediction of tooth movement from the force system and root morphology.
- Author
-
Savignano R, Viecilli RF, and Oyoyo U
- Subjects
- Cone-Beam Computed Tomography, Finite Element Analysis, Humans, Mechanical Phenomena, Tooth Root diagnostic imaging, Tooth diagnostic imaging, Tooth Movement Techniques
- Abstract
Objectives: To determine the different impact of moment-to-force ratio (M:F) variation for each tooth and spatial plane and to develop a mathematical model to predict the orthodontic movement for every tooth., Materials and Methods: Two full sets of teeth were obtained combining cone-beam computed tomography (CBCT) and optical scans for two patients. Subsequently, a finite element analysis was performed for 510 different force systems for each tooth to evaluate the centers of rotation., Results: The center of CROT locations were analyzed, showing that the M:F effect was related to the spatial plane on which the moment was applied, to the force direction, and to the tooth morphology. The tooth dimensions on each plane were mathematically used to derive their influence on the tooth movement., Conclusion: This study established the basis for an orthodontist to determine how the teeth move and their axes of resistance, depending on their morphology alone. The movement is controlled by a parameter (k), which depends on tooth dimensions and force system features. The k for a tooth can be calculated using a CBCT and a specific set of covariates., (© 2020 by The EH Angle Education and Research Foundation, Inc.)
- Published
- 2020
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