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Journal of Medical Systems
Published in: Journal of Medical Systems 9/2015

01-09-2015 | Transactional Processing Systems

Personalized Orthodontic Accurate Tooth Arrangement System with Complete Teeth Model

Authors: Cheng Cheng, Xiaosheng Cheng, Ning Dai, Yi Liu, Qilei Fan, Yulin Hou, Xiaotong Jiang

Published in: Journal of Medical Systems | Issue 9/2015

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Abstract

The accuracy, validity and lack of relation information between dental root and jaw in tooth arrangement are key problems in tooth arrangement technology. This paper aims to describe a newly developed virtual, personalized and accurate tooth arrangement system based on complete information about dental root and skull. Firstly, a feature constraint database of a 3D teeth model is established. Secondly, for computed simulation of tooth movement, the reference planes and lines are defined by the anatomical reference points. The matching mathematical model of teeth pattern and the principle of the specific pose transformation of rigid body are fully utilized. The relation of position between dental root and alveolar bone is considered during the design process. Finally, the relative pose relationships among various teeth are optimized using the object mover, and a personalized therapeutic schedule is formulated. Experimental results show that the virtual tooth arrangement system can arrange abnormal teeth very well and is sufficiently flexible. The relation of position between root and jaw is favorable. This newly developed system is characterized by high-speed processing and quantitative evaluation of the amount of 3D movement of an individual tooth.
Literature
1.
Cho, M. Y., Choi, J. H., Lee, S. P., and Baek, S. H., Three-dimensional analysis of the tooth movement and arch dimension changes in Class I malocclusions treated with first premolar extractions: a guideline for virtual treatment planning. Am J Orthod Dentofacial Orthop 138:747–757, 2010.CrossRefPubMed
2.
Im, J., Cha, J.-Y., Lee, K.-J., Yu, H.-S., and Hwang, C.-J., Comparison of virtual and manual tooth setups with digital and plaster models in extraction cases. Am J Orthod Dentofac Orthop 145:434–442, 2014.CrossRef
3.
Al Mortadi, N., Eggbeer, D., Lewis, J., and Williams, R. J., CAD/CAM/AM applications in the manufacture of dental appliances. Am J Orthod Dentofac Orthop 142:727–733, 2012.CrossRef
4.
Bourauel, C., Freudenreich, D., Vollmer, D., Kobe, D., Drescher, D., and Jäger, A., Simulation of orthodontic tooth movements. A comparison of numerical models. J Orofac Orthop 60:136–151, 1999.CrossRefPubMed
5.
Kojima, Y., and Fukui, H., A numerical simulation of tooth movement by wire bending. Am J Orthod Dentofac Orthop 130:452–459, 2006.CrossRef
6.
Moles, R., The SureSmile system in orthodontic practice. J Clin Orthod 43:161–174, 2009.PubMed
7.
Mah, J., and Sachdeva, R., Computer-assisted orthodontic treatment: the SureSmile process. Am J Orthod Dentofacial Orthop 120:85–87, 2001.CrossRefPubMed
8.
Muller-Hartwich, R., Prager, T. M., and Jost-Brinkmann, P. G., SureSmile—CAD/CAM system for orthodontic treatment planning, simulation and fabrication of customized archwires. Int J Comput Dent 10:53–62, 2007.
9.
Sachdeva, R., Fruge, J. F., Fruge, A. M., Ingraham, R., Petty, W. D., Bielik, K. L., et?al., SureSmile: a report of clinical findings. J Clin Orthod 39:297–314, 2005.
10.
11.
Redmond, W. J., Redmond, M. J., and Redmond, W. R., The OrthoCAD bracket placement solution. Am J Orthod Dentofacial Orthop 125:645–646, 2004.CrossRefPubMed
12.
Grauer, D., and Proffit, W. R., Accuracy in tooth positioning with a fully customized lingual orthodontic appliance. Am J Orthod Dentofacial Orthop 140:433–443, 2011.CrossRefPubMed
13.
Pauls, A. H., Therapeutic accuracy of individualized brackets in lingual orthodontics. J Orofacial Orthop 71:348–361, 2010.CrossRef
14.
Fillion, D., Computer generated conception and fabrication of transfer trays for indirect bonding of lingual attachment: the Orapix system. Rev Orthopedic Dento Faciale 41:61–75, 2007.CrossRef
15.
Fillion, D., Clinical advantages of the Orapix-straight wire lingual technique. Int Orthod 8:125–151, 2010.PubMed
16.
Fillion, D., Lingual straightwire treatment with the Orapix system. J Clin Orthod 45:488–497, 2011.PubMed
17.
Motohashi, N., and Kuroda, T., A 3D computer-aided design system applied to diagnosis and treatment planning in orthodontics and orthognathic surgery. Eur J Orthod 21:263–274, 1999.CrossRefPubMed
18.
Macchi, A., Carrafiello, G., Cacciafesta, V., and Norcini, A., Three-dimensional digital modeling and setup. Am J Orthod Dentofac Orthop 129:605–610, 2006.CrossRef
19.
Yau, H.-T., Yang, T.-J., and Chen, Y.-C., Tooth model reconstruction based upon data fusion for orthodontic treatment simulation. Comput Biol Med 48:8–16, 2014.CrossRefPubMed
20.
Sun, Y., Lv, P., and Wang, Y., Study on CAD&RP for removable complete denture. Comput Meth Progr Biomed 93(3):266–272, 2009.CrossRef
21.
Zhang, Y., Jiang, J., Liang, T., and Wei-ping, H., Kinematics modeling and experimentation of multi-manipulator tooth-arrangement robot for full denture manufacturing. J Med Syst 35(6):1421–1429, 2011.CrossRefPubMed
22.
Zhang, Y., Jiang, J., Lv, P., and Wang, Y., Coordinated control and experimentation of the dental arch generator of the tooth-arrangement robot. Int J Med Robot Comp AssistSurg 6(4):473–482, 2010.CrossRef
23.
Jiang, J., Zhang, Y., Collaborative simulation and experimentation of dental arch generator of multi-manipulator tooth-arrangement robot. Int J Adv Robot Sys, 2012.
24.
Kanazawa, M., Inokoshi, M., Minakuchi, S., and Ohbayashi, N., Trial of a CAD/CAM system for fabricating complete dentures. Dent Mater J 30(1):93–96, 2011.CrossRefPubMed
Metadata
Title
Personalized Orthodontic Accurate Tooth Arrangement System with Complete Teeth Model
Authors
Cheng Cheng
Xiaosheng Cheng
Ning Dai
Yi Liu
Qilei Fan
Yulin Hou
Xiaotong Jiang
Publication date
01-09-2015
Publisher
Springer US
Published in
Journal of Medical Systems / Issue 9/2015
Print ISSN: 0148-5598
Electronic ISSN: 1573-689X
DOI
https://doi.org/10.1007/s10916-015-0269-4

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