University of Connecticut Health
2 ARTICLES PUBLISHED IN JoVE
JoVE Core
Force System with Vertical V-Bends: A 3D In Vitro Assessment of Elastic and Rigid Rectangular Archwires
Madhur Upadhyay 1, Raja Shah 2, Sachin Agarwal 3, Meenakshi Vishwanath 4, Po-Jung Chen 5, Takafumi Asaki 6, Donald Peterson 7
1Division of Orthodontics, University of Connecticut Health, 2Private Practice, 3Department of Orthodontics, University of Melbourne, 4Department of Orthodontics, University of Nebraska Medical Center, 5Department of Craniofacial Sciences, University of Connecticut Health, 6Biomedical Engineering, University of Hartford, 7Department of Mechanical Engineering, College of Engineering and Engineering Technology, Northern Illinois University
The method presented here is designed to construct and validate an in vitro 3D model capable of measuring the force system generated by different archwires with V-bends placed between two brackets. Additional objectives are to compare this force system with different types of archwires and to previous models.
JoVE Core
A Finite Element Approach for Locating the Center of Resistance of Maxillary Teeth
Bill Luu 1, Edward Anthony Cronauer 2, Vaibhav Gandhi 1, Jonathan Kaplan 3, David M. Pierce 3,4, Madhur Upadhyay 1
1Division of Orthodontics, University of Connecticut Health, 2Private Practice, Miami, FL, 3Department of Biomedical Engineering, University of Connecticut, 4Department of Mechanical Engineering, University of Connecticut
This study outlines the necessary tools for utilizing low-dose three-dimensional cone beam-based patient images of the maxilla and maxillary teeth to obtain finite element models. These patient models are then used to accurately locate the CRES of all the maxillary teeth.
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