Composite Restoration Design Effect During Curing and Chewing.

C Özcan, P Lestriez, Y Josset
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Abstract

Purpose: The purpose of this work is to observe the effect of the cavity design of the direct composite restoration on a real case of the patient's tooth structures after applying his mandibular kinematics with finite element analysis.

Materials and methods: Four complex maxillomandibular models of teeth 17 and 47 were constructed from the patient's cone-beam acquisition and the patient's kinematic data recorded with Modjaw® were added. Different shapes and sizes of mesio-occluso-distal (M.O.D.) composite restorations were simulated, including the polymerization shrinkage of this material. Finite element analyses were used to observe the Von Mises stresses occurring during polymerization and mastication.

Results: The stresses were observed at the cavity margin and the amplitude of the stresses was higher when the enamel volume was lower. The reduction in occlusal enamel volume with the open-angle vestibular and palatal walls resulted in a greater increase in stresses observed on the structures.

Conclusions: The occlusal enamel is the area that bears the maximum masticatory stress, the loss of this enamel volume generates a much greater concentration of stress on the underlying structures. It is important to preserve as much enamel tissue as possible when designing a cavity for a direct composite restoration.

复合材料修复体设计在固化和咀嚼过程中的效果。
目的:这项工作的目的是通过有限元分析应用患者的下颌骨运动学数据,观察直接复合修复体的牙洞设计对患者牙齿结构真实病例的影响:根据患者的锥形束采集结果构建了 17 和 47 号牙齿的四个复杂上下颌模型,并添加了用 Modjaw® 记录的患者运动学数据。模拟了不同形状和大小的间隙-咬合-间距(M.O.D.)复合树脂修复体,包括这种材料的聚合收缩。使用有限元分析观察聚合和咀嚼过程中产生的 Von Mises 应力:结果:在龋洞边缘观察到了应力,当珐琅质体积较小时,应力的振幅较大。咬合面釉质体积的减少以及前庭壁和腭侧壁的开角导致在这些结构上观察到的应力增幅更大:结论:咬合面釉质是承受最大咀嚼应力的区域,釉质体积的减少会对下层结构产生更大的应力集中。在设计直接复合修复体的龋洞时,尽可能多地保留釉质组织非常重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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