A modal analysis of implant-supported overdentures installed on differently positioned sets of dental implants.

Mika Tsuno, Hidemi Nakata, S. Kuroda, Munemitsu Miyasaka, T. Sasaki, S. Kasugai, E. Marukawa
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Abstract

This study evaluated the three vibration characteristics, namely, natural frequency, damping ratio, and natural mode, together with maximum displacement of a two-implant-supported overdenture (IOD) at different locator attachment positions using experimental modal analysis (EMA). Edentulous mandibular models with a gingival thickness of 1 mm or 3 mm were prepared, into which dental implants were placed using a fully guided surgical template designed with simulation software, the locator abutments were fastened, and the IODs were then fabricated. The implant positions were bilaterally marked at the lateral incisor, first premolar, and first molar regions. EMA was performed by hammering the test structures to measure the impulse response and obtain the vibration characteristics (n = 5). The Kruskal-Wallis test was performed for natural frequency and maximum displacement, and the Games-Howell test for damping ratio. The significance level was set at α = 0.05. The study indicated that the gingival thickness had a significant effect on the vibration characteristics. Moreover, the natural frequency and damping ratio results showed that the vibration subsided faster when the attachment was placed on the molar implants in the thick gingival model. Furthermore, according to the effect of lateral force on IODs, the difference in maximum displacement between the anterior and posterior regions of the IOD was smaller when the attachments were designed on the pair of lateral incisors. Thus, within the limits of this experiment, our results suggested that two anterior implant-supported IODs are preferable treatment designs in terms of vibration engineering, especially when the gingiva is thick; the molar attachment design could be considered for thin gingival conditions. The differences in gingival thickness and abutment position affected the vibration characteristics of the IOD. Further in vivo studies would be necessary to validate the implant positions and their IOD designs for the mandibular edentulous shapes and the occlusal relationship.
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种植支撑覆盖义齿安装在不同位置的牙种植体组的模态分析。
本研究使用实验模态分析(EMA)评估了两个种植体支撑的覆盖义齿(IOD)在不同定位器连接位置的三种振动特性,即固有频率、阻尼比和固有模式,以及最大位移。制备了牙龈厚度为1毫米或3毫米的无牙下颌骨模型,使用模拟软件设计的全导向手术模板将牙科植入物放入模型中,固定定位基牙,然后制作IOD。种植体位置在侧切牙、第一前臼齿和第一臼齿区域进行双侧标记。通过锤击测试结构来进行EMA,以测量脉冲响应并获得振动特性(n=5)。对固有频率和最大位移进行了Kruskal-Wallis试验,对阻尼比进行了Games-Howell试验。显著性水平设定为α=0.05。研究表明,牙龈厚度对振动特性有显著影响。此外,固有频率和阻尼比结果表明,在厚牙龈模型中,当附件放置在磨牙种植体上时,振动消退得更快。此外,根据侧向力对IOD的影响,当在一对侧切牙上设计附件时,IOD前部和后部区域之间的最大位移差异较小。因此,在本实验的范围内,我们的结果表明,就振动工程而言,两个前部植入物支持的IOD是优选的治疗设计,尤其是当牙龈较厚时;磨牙附件的设计可以考虑薄牙龈条件。牙龈厚度和基牙位置的差异影响IOD的振动特性。有必要进行进一步的体内研究,以验证种植体的位置及其IOD设计对下颌缺牙形状和咬合关系的影响。
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