Abstract—Orthodontic tooth movement is strictly dependent on force application point. In relation to this point, the Resistance center and Rotation center notions, express the obtained tooth movement and its’ biological implications. There for, a certain resistance of the supporting tooth tissues, can ease or make mode difficult a bodily tooth movement. The proposed model, presents, based on two programs in a series sequence, an accessible variant of orthodontic tooth movement, with the possibility of initial data adaptation in order to obtain a numerical simulation and analogical modeling of the orthodontic movement of a wide dental dimensional category.
Index Terms—Orthodontics, tooth movement, upper central incisor, rotation center, apex movement.
The authors are with the Technical University of Cluj-Napoca , Romania, Department of Automation, Romania (e-mail: olimpia.bunta@yahoo.com, vlad.muresan@aut.utcluj.ro, tiberiu.colosi@aut.utcluj.ro)
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Cite: Bunta Olimpia, Vlad Muresan, and Tiberiu Colosi, "Upper Central Incisor Orthodontic Movement Approximation through Mathematical Simulation Programs," International Journal of Modeling and Optimization vol. 8, no. 6, pp. 页, 2018.
