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Technical Brief

Numerical Characterization of Bone Defects After Dental Implantation1

[+] Author and Article Information
Bin-Xun Hsieh

Graduate Institute of Biomedical Engineering,
National Central University,
No. 300, Jhongda Rd.,
Jhongli City, Taoyuan 32001, Taiwan

Chin-Sung Chen

Department of Dentistry,
Sijhih Cathy General Hospital,
Taiwan

Min-Chun Pan

Graduate Institute of Biomedical Engineering;
Department of Mechanical Engineering,
National Central University,
No. 300, Jhongda Rd.,
Jhongli City, Taoyuan 32001, Taiwan
e-mail: pan_minc@cc.ncu.edu.tw

Accepted and presented at the Design of Medical Devices Conference (DMD2014), Minneapolis, MN, April 7–10, 2014.

Manuscript received February 21, 2014; final manuscript received March 3, 2014; published online April 28, 2014. Editor: Arthur G. Erdman.

J. Med. Devices 8(2), 020942 (Apr 28, 2014) (2 pages) Paper No: MED-14-1091; doi: 10.1115/1.4027049 History: Received February 21, 2014; Revised March 03, 2014

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References

Glauser, R., Sennerby, L., Meredith, N., Rèe, A., Lundqen, A., Gottlow, J., and Hämmerle, C., 2004, “Resonance Frequency Analysis of Implants Subjected to Immediate or Early Functional Occlusal Loading,” Clin. Oral Implants Res., 15(4), pp. 428–434. [CrossRef]
Wang, S., Liu, G. R., Hoang, K. C., and Guo, Y., 2010, “Identifiable Range of Osseointegration of Dental Implants Through Resonance Frequency Analysis,” Med. Eng. Phys., 32(10), pp. 1094–1096. [CrossRef]
Li, W., Lin, D., Chaiy, R., Zhou, S., Michael, S., and Li, Q., 2011, “Finite Element Based Bone Remodeling and Resonance Frequency Analysis for Osseointegration,” Finite Elem. Anal. Des., 47(8), pp. 898–905. [CrossRef]
Zhuang, H. B., Tu, W. S., Pan, M. C., Wu, J. W., Chen, C. S., Lee, S. Y., and Yang, Y. C., 2013, “Noncontact Vibro-Acoustic Detection Technique for Dental Osseointegration Examination,” J. Med. Biol. Eng., 33(1), pp. 35–44. [CrossRef]
Wang, S., Liu, G. R., Hoang, K. C., and Guo, Y., 2010, “Identifiable Range of Osseointegration of Dental Implants Through Resonance Frequency Analysis,” Med. Eng. Phys., 32(10), pp. 1094–1096. [CrossRef]
Lacroix, D., Prendergast, P. J., Li, G., and Marsh, D., 2002, “Biomechanical Model to Simulate Tissue Differentiation and Bone Regeneration: Application to Fracture Healing,” Med. Biol. Eng. Comput., 40(1), pp. 14–21. [CrossRef]

Figures

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Fig. 5

RF trend of three combinations models with Class II closed defects, where all defect depth is 3 mm

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Fig. 4

RF trend of three combinations models with Class I closed defects, where all defect width is1 mm

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Fig. 3

Finite element model of designated IITB system including test peg, implant, interfacial tissue, and mandible

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Fig. 2

Class II closed defects with surrounding bone walls. (a) Birdview of implant with 2 or 3 mm depth closed defect, and with a width of (b1) 1, (b2) 2, (b3) 3, (b4) 4, and (b5) 5 mm surrounding the implant.

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Fig. 1

Class I closed defects with surrounding bone walls. (a) Birdview of implant with 1 mm width closed defect, and with a depth of (b1) 1, (b2) 2, (b3) 3, (b4) 4, and (b5) 5 mm. (c1)–(c5) with cortical bone removed correspond to (b1)–(b5).

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