Three-point bending test simulation on implant fpds with a bio-faithful model.

ORAL and Implantology Pub Date : 2017-04-10 eCollection Date: 2017-01-01 DOI:10.11138/orl/2017.10.1.053
V Vertucci, M Montani, C Arcuri, P Cardelli
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引用次数: 1

Abstract

Aim of the study: It is well known by previous important studies that mandible flexes during different jaw movements. According to this assumption it is very important to know how implant supported fixed partial dentures could restrict mandibular movements and, could lead to excess strain accumulation that could modify the resolution of implant treatment. The aim of our project is to create a bio-faithful model able to recreate mandibular movements, during three point bending test methods of (FIXED -PARTIAL -DENTURES) FPDs, to avoid a not flexible metal base, where models' properties doesn't allow to obtain a bio-faithful simulation during testing phases.

Materials and methods: 2 implants (premium Sweden and Martina®) were embedded in mandible resin section to mimic osteointegrated implants in premolar and molar areas, in order to recreate a Kennedy Class II configuration. Our mandible test simulator was creating according to the measurement obtained according to the study of Schwartz-Dabney and Dechow (2002). Sample so created is tested with testing machine (Instron 5566®, UK) adopting the three point bending mechanical tests configuration.

Discussion and conclusion: We can admit that oral cavity is a bio-dynamic system, where different variables incurr, so it's very important that experimental conditions simulate clinical environment. Experimentation should be based on the correlation between the failure mechanisms exhibited for in vitro samples and those observed in fractured clinical prostheses made of the same composition and processing conditions. A bio-faithful model could reduce this wide range between in vitro and in vivo study experimentation.

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基于生物忠实度模型的植入式fpds三点弯曲试验模拟。
研究目的:这是众所周知的,通过以往的重要研究,下颌骨弯曲在不同的颌运动。根据这一假设,了解种植支撑的固定局部义齿如何限制下颌运动,并可能导致过度的应变积累,从而改变种植治疗的分辨率是非常重要的。我们项目的目的是创建一个生物忠实模型,能够在(固定-局部-假牙)FPDs的三点弯曲测试方法中重建下颌运动,以避免不灵活的金属底座,其中模型的特性不允许在测试阶段获得生物忠实模拟。材料和方法:2个种植体(优质瑞典和Martina®)嵌入下颌骨树脂部分,模拟前磨牙和磨牙区域的骨整合种植体,以重建Kennedy II级结构。我们的下颌骨测试模拟器是根据Schwartz-Dabney和Dechow(2002)的研究得到的测量结果创建的。采用三点弯曲机械测试配置的试验机(Instron 5566®,英国)对所创建的样品进行测试。讨论与结论:我们可以承认口腔是一个生物动力系统,其中会发生不同的变量,因此实验条件模拟临床环境非常重要。实验应基于体外样品的失效机制与在相同成分和加工条件下制成的骨折临床假体中观察到的失效机制之间的相关性。生物忠实模型可以减少体外和体内研究实验之间的这种广泛范围。
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来源期刊
ORAL and Implantology
ORAL and Implantology Dentistry-Dentistry (all)
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