Title page for 973203069


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Student Number 973203069
Author Po-Hsun Wu(吳柏勳)
Author's Email Address No Public.
Statistics This thesis had been viewed 372 times. Download 692 times.
Department Mechanical Engineering
Year 2010
Semester 2
Degree Master
Type of Document Master's Thesis
Language zh-TW.Big5 Chinese
Title Stability assessment after dental implantation
Date of Defense 2011-07-20
Page Count 72
Keyword
  • Bone defect
  • Dental implant
  • Finite element analysis
  • Noncontact detection
  • Osseointegration
  • Resonance frequency
  • Abstract The aim of this study is applied the noncontact detection technique to assess interfacial bone defects after the dental implantation. A series of in-vitro bone defect models were designed as well as made, and their surrounding boundary conditions were also changed. The structural resonance frequency (RF) was first measured by the acoustic excitation-displacement response procedure, and then this result was applied to compare with the outcome of the commercial implant stability instrument measurement and the finite element analysis (FEA). Therefore, the correlation between the RF difference and the bone defect orientation/location can be determined, and the postoperative assessment can also be established. This technique promises to assist the dentist in diagnosing and decreases the failure of the dental surgery.
    Table of Content 中文摘要I
    AbstractⅡ
    誌謝Ⅲ
    目錄Ⅳ
    圖目錄Ⅵ
    表目錄Ⅷ
    第一章 緒論1
    1-1 研究動機1
    1-2文獻回顧2
    1-3 研究範疇7
    第二章 牙科植體/人造骨材之體外模型理論基礎8
    2-1懸臂樑振動分析8
    2-2有限元素分析14
    第三章 體外骨缺損模型實驗與模擬17
    3-1骨缺損模型設計與製作18
    3-1-1模型設計規劃18
    3-1-2邊界條件差異設計22
    3-2 骨缺損模型之實驗架構24
    3-2-1 聲能激振與位移響應量測24
    3-2-2 穩固度量測實驗27
    3-3 骨缺損模型之有限元素模態分析30
    3-3-1模型建構及網格化31
    3-3-2邊界條件設置及求解33
    3-3-3元素收斂性分析35
    第四章 骨缺損模型檢測結果與討論36
    4-1 骨缺損模型之理論數值討論36
    4-2 骨缺損模型實驗38
    4-2-1 聲能激振與位移響應38
    4-2-2 穩固度檢測數值41
    4-3模擬數值結果45
    4-4 骨缺損方向與位置檢測49
    4-4-1缺損型態與骨質條件差異討論49
    4-4-2 骨缺損檢測流程53
    4-5 結論55
    第五章 未來展望56
    參考文獻57
    Reference [1] Carlsson, L., Rostlund, T., Albrektsson, B., Albrektsson, T. and Brnmark, P. I., “Osseointergration of Titanium Implants,” Acta Orthopaedica Scandinavica, Vol. 57, pp. 285-289 (1988).
    [2] Meredith, N., “Assessment of Implant Stability as a Prognostic Determinant,” International Journal Prosthodont, Vol. 11, No. 4, pp. 491-501 (1998).
    [3] Albrektsson, T., and Albrektsson, B., “Osseointehration of Bone Implants: a Review of an Alterative Mode of Fixation,” Acta Orthopaedica Scandinavica, Vol. 58, pp. 567-577 (1987).
    [4] Sullivan, D. Y., Sherwood, R. L., Collins, T. A., and Krogh, P. H. J., “The Reverse-Torque Test. A Clinical Report,” International Journal of Oral and Maxillofacial Implants, Vol. 11, No. 2, pp. 179-185 (1996).
    [5] 王大介,「利用共振頻率分析法研究植體在類似不同骨密度環境下之穩固度」,碩士論文,國防醫學院牙醫科學研究所,臺北(2004)。
    [6] Sunden, S., Grondahl, K., and Grondahl, H. G., “Accuracy and Precision in the Radiographic Diagnosis of Clinical Instability in Brånemark Dental Implants,” Clinical Oral Implants Research, Vol. 6, No. 4, pp. 220-226 (1995).
    [7] Schulte, W., Lukas, D., Maunz, M., and Steppeler, M., “Periotest for Messuring Periodontal Characteristics Correlation with Periodontal Loss,” Journal of Periodonntal Research, Vol. 27, No 3, pp. 184-190 (1992).
    [8] Thomson, W. T., Theory of Vibration with Applications, Prentice-Hall, New York, pp. 221-229 (1995).
    [9] Meredith, N., Alleyne, D., and Cawley, P., “Quantitative Determination of the Stability of the Implant-Tissue Interface Using Resonance Frequency Analysis,” Clinical Oral Implants Research, Vol. 7, No. 3, pp. 261-267 (1996).
    [10] Lee, S. Y., Huang, H. M., Lin, C. Y., and Shih, Y. H., “In Vivo and in Vitro Natural Frequency Analysis of Periodontal Conditions, an Innovative Method,” Journal of Periodontal Research, Vol. 71, No. 4, pp. 632-640 (1999).
    [11] Sjostrom, M., Lundgren, S., Nilson, H., and Sennerby L., “Monitoring of Implant Stability in Grafted Bone Using Resonance Frequency Analysis a Clinical Study from Implant Placement to 6 Months of Loading,” International Journal of Oral and Maxillofacial Surgery, Vol. 34, No. 5, pp. 45–51 (2005).
    [12] Ito, Y., Sato, D., Yoneda, S., Ito, D., Kondo, H., and Kasugai, S., “Relevance of Resonance Frequency Analysis to Evaluate Dental Implant Stability: Simulation and Histomorphometrical Animal Experiments,” Clinical Oral Implants Research, Vol. 19 No,1 , pp. 9-14 (2008).
    [13] Tözüm, T. F., Turkyilmaz, I., and McGlumphy, E. A., “Relationship between Dental Implant Stability Determined by Resonance Frequency Analysis Measurements and Peri-implant Vertical Defects: an in Vitro Study,” Journal of Oral Rehabilitation, Vol. 35, pp. 739-744 (2008).
    [14] Tözüm, T. F., Turkyilmaz I., and Bal B. T., “Initial Stability of Two Dental Implant Systems: Influence of Buccolingual Width and Probe Orientation on Resonance Frequency Measurements,” Clinical Implant Dentistry and Related Research, Vol. 12, No 3, pp. 194-201 (2010).
    [15] Tözüm T. F., Bal B. T., Turkyilmaz I., and Gulay G., “Which Device is more Accurate to Determine the Stability/Mobility of Dental Implants? A Human Cadaver Study,” Journal of Oral Rehabilitation, Vol. 37, pp. 217-224 (2010).
    [16] Ohta, K., Takechi, M., Minami, M., Shigeishi, H. and Hiraoka, M., “Influence of Factors Related to Implant Stability Detected by Wireless Resonance Frequency Analysis Device,” Journal of Oral Rehabilitation, Vol. 37, pp. 131-137 (2010).
    [17] Huang, H. M., Pan, L. C., Lee, S. Y., Chiu, C. L., Fan, K. H., and Ho, K. N., “Assessing the Implant-Bone Interface by Using Natural Frequency Analysis,” Clinical Oral Implants Research, Vol. 90, No. 3, pp. 285-291 (2000).
    [18] 莊瀚伯,「牙科植體術後股缺損型態之結構分析」,碩士論文,國立中央大學機械工程研究所,桃園(2006)。
    [19] 陳梓尉,「共振頻率法於牙根植體缺損位置判別研究」,碩士論文,國立中央大學機械工程研究所,桃園(2007)。
    [20] 杜瑋珊,「共振頻率法之牙科植體個體骨缺損檢測研究」,碩士論文,國立中央大學機械工程研究所,桃園(2009)。
    [21] Yamane, M., Yamaoka, M., Hayashi, M., Furutoyo, I., Komori, N., and Ogiso, B., “Measuring Tooth Mobility with a No-contact Vibration Device,” Journal of Periodontal Research, Vol. 43, pp. 84-89 (2007).
    [22] Hayashi, M., Kobayashi, C., Ogata, H., Yamaoka M., and Ogiso B., “A no-contact Vibration Device for Measuring Implant Stability,” Clinical Oral Implants Research. Vol. 9, pp. 931-936 (2010).
    [23] Samer, A. J., and Abdullah, A. A., “Assessment of Osstell™ and Periotest® Systems in Measuring Dental Implant Stability (In Vitro Study),” The Saudi Dental Journal, Vol. 23, No. 1, pp. 17-21 (2011).
    [24] Huang, H. L., Tu, M. G., and Fuh, L. J., “Effects of Elasticity and Structure of Trabecular Bone on the Primary Stability of Dental Implants,” Journal of Medical and Biological Engineering, Vol, 30, No. 2, pp 85-89 (2010).
    [25] 余俊杰,「不同模擬形式與程度的齒槽骨缺損對牙齒動搖度之共振響應分析」,碩士論文,臺北醫學大學口腔復健醫學研究所,臺北(2001)。
    [26] Huang, H. M., Lee, S. Y., Yeh, C. Y., and Lin, C. T., “Resonance Frequency Assessment of Dental Implant Stability with Various Bone Qualities: A Numerical Approach,” Clinical Oral Implants Research. Vol. 13, No. 2, pp. 65–74 (2002).
    [27] Natali, A. N., Pavan, P. G., Schileo, E., Williams, K. R., “A Numerical Approach to Resonance Frequency Analysis for the Investigation of Oral Implant Osseointegration,” Journal of Oral Rehabilitation Research, Vol. 33, No. 9, pp. 674–681 (2006).
    [28] Pattijn, V., Van Lierde, C., Van Der Perre, G., Naert, I., Vander Sloten, J., “The Resonance Frequencies and Mode Shapes of Dental Implants: Rigid body Behaviour Versus Bending Behaviour. A Numerical Approach,” Journal of Biomechanics, Vol. 39, No. 5, pp. 939-947 (2006).
    [29] Capek, Lukas., Simunek, Antonin., Slezak, Radovan., Dzan, adislav., “Influence of the Orientation of the Osstell® Transducer during Measurement of Dental Implant Stability using Resonance Frequency Analysis: A Numerical Approach,” Medical Engineering and Physics, Vol. 31, No. 7, pp. 764-769 (2009).
    [30] Rao, S, S., Mechanical vibrations 4th, pp. 609-613。
    [31] 王栢村,電腦輔助工程分析之實務與應用,全華科技圖書股份有限公司,臺北(2005)。
    [32] 劉晉奇,褚晴暉,有限元素分析與ANSYS的工程應用,滄海(2006)。
    [33] 林奕男,「懸臂樑結構尺寸與自然頻率及阻尼比關係之研究」,碩士論文,中興大學機械研究所,台中(2004)。
    Advisor
  • Min-Chun Pan(潘敏俊)
  • Files
  • 973203069.pdf
  • approve in 1 year
    Date of Submission 2011-08-09

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