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Technical Brief

Effects of Varied Cortical Shells and Tooth Situations to the Structure Resonance in Dental Implantation1

[+] Author and Article Information
Trinh Minh Cong

Department of Biomedical Sciences and Engineering,
National Central University (NCU),
Taoyuan City 320, Taiwan

Chin-Sung Chen

Department of Dentistry,
Sijhih Cathy General Hospital,
New Taipei City 220, Taiwan

Min-Chun Pan

Department of Biomedical Sciences and Engineering,
National Central University (NCU),
Taoyuan City 320, Taiwan;
Department of Mechanical Engineering,
National Central University (NCU),
Taoyuan City 320, Taiwan
e-mail: pan_minc@cc.ncu.edu.tw

DOI: 10.1115/1.4033871Manuscript received March 1, 2016; final manuscript received March 17, 2016; published online August 1, 2016. Editor: William Durfee.

J. Med. Devices 10(3), 030965 (Aug 01, 2016) (2 pages) Paper No: MED-16-1140; doi: 10.1115/1.4033871 History: Received March 01, 2016; Revised March 17, 2016

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References

Brånemark, P.-I. , 1985, “ Introduction to Osseo-integration,” Tissue Integrated Prostheses, Quintessence Publishing, Hanover Park, IL, p. 11.
Meredith, N. , Alleyne, D. , and Cawley, P. , 1996, “ Quantitative Determination of the Stability of the Implant-Tissue Interface Using Resonance Frequency Analysis,” Clin. Oral Implants Res., 7(3), pp. 261–267. [CrossRef] [PubMed]
Pan, M. C. , Zhuang, H. B. , Chen, C. S. , Wu, J. W. , and Lee, S. Y. , 2013, “ A Noncontact Resonance Frequency Detection Technique for the Assessment of the Interfacial Bone Defect Around a Dental Implant,” Med. Eng. Phys., 35(12), pp. 1825–1830. [CrossRef] [PubMed]
Zhuang, H. B. , Ch Pan, M. , Chen, J. Z. , Wu, J. W. , and Chen, C. S. , 2014, “ A Noncontact Detection Technique for Interfacial Bone Defects and Osseointegration Assessment Surrounding Dental Implants,” Measurement, 55, pp. 335–342. [CrossRef]
Hsieh, B. X. , Chen, C. S. , and Pan, M. C. , 2014, “ Numerical Characterization of Bone Defects After Dental Implantation,” ASME J. Med. Devices, 8(2), p. 020942. [CrossRef]
Cong, T. M. , Mou, R.-Z. , Chen, C.-S. , and Pan, M.-C. , 2015, “ Resonance Frequency Confirmation for Osseointegration of Dental Implantation In Vitro Models With Varied Cortical Thickness,” ASME J. Med. Devices, 9(3), p. 030945. [CrossRef]
Pacific Research Laboratories (SAWBONES®), 2013, “ Biomechanical Test Material,” Orthopedic Catalog, Washington, Vashon, pp. 77–78.

Figures

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Fig. 1

FEA modeling of in vivo mandibles with varied implant positions and with no natural teeth

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Fig. 2

FEA modeling of in vivo mandibles with natural teeth

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Fig. 3

Mandibular FEA mode shapes

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Fig. 4

RFs surface of first mode (a) and RFs surface of DM mode (b) in mandibular FEA without teeth

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Fig. 5

Comparison of RFs trends between incisor, canine, and molar position (a) and mandible with and without teeth (b)

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Fig. 6

Obtained RFs from mandible FEA without teeth (interface tissue modulus: 136.2 MPa and density: 299.2 kg/m3)

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