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    Please use this identifier to cite or link to this item: https://ir.lib.ncu.edu.tw/handle/987654321/108977


    Title: Non-contact vibro-acoustic detection technique for dental osseointegration examination
    Authors: 潘敏俊;Zhuang, Han-bo;Tu, Wei-shan;Pan, Min-chun;Wu, Jer-whey
    Contributors: 工學院機械工程學系
    Keywords: Bone defect detection;Dental implant;EI;Non-contact vibro-acoustic measurement;Osseointegration;SCI
    Date: 2013-03-19
    Issue Date: 2026-04-23 15:18:45 (UTC+8)
    Publisher: Springer International Publishing AG;台灣: 中華民國生物醫學工程學會
    Abstract: 摘要: This study develops a non-contact vibro-acoustic detection technique for measuring the defect quantity and determining the imperfection orientation surrounding a bone-implant interface. Acoustic excitation through a miniature loud speaker and vibration response measurement using a capacity-type displacement sensor are applied to accomplish this task to prevent the mass loading effect on the structure to be examined. The proposed non-contact excitation-response measurements are verified using a series of designated in vitro defect models, and the measured resonance frequencies (RFs) are used to discriminate interfacial structure variations. A finite element modal analysis is conducted to validate the measured RFs. Additionally, a prototype device is developed and applied to assess the osseointegration between dental implants and tibia in an in vivo animal model. A comparison of in vitro experimental results with numerical simulations shows that the RFs in the defective orientation are significantly smaller than those in the complete direction (p < 0.05),and that the values decrease with increasing defect quantity (p < 0.05). Moreover,the defect depth affects RF variation. In the in vivo experiments,the RF levels in the lateral direction of the tibia are much higher than those in the axial direction (p < 0.05) of the tibia. The RF values in the axial direction for two implants have no significant difference (p = 0.552),but the RFs in the lateral direction for implant 2 are higher than those for implant 1 (p < 0.05). The RF changes can be compared to assess osseointegration development. The proposed technique is promising for assisting dentists in the assessment of implant stability after surgery.
    出版者: 台灣: 中華民國生物醫學工程學會
    出版日期: 2013-01-01
    出處: Journal of Medical and Biological Engineering, 2013-01, Vol.33 (1), p.35-43
    資源來源: 華藝CEPS中文電子期刊服務
    識別號: ISSN: 1609-0985
    識別號: DOI: 10.5405/jmbe.993
    Appears in Collections:[Departmant of Mechanical Engineering ] journal & Dissertation

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