定制PEEK牙桩核与常规桩核在门牙修复中的比较应力分析:一项有限元研究。

Semsettin Yildiz, Samet Tekin, Ayşe Rençber Kizilkaya, Semih Ercan Akgün, Yalcin Deger
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摘要

背景:我们进行了有限元分析来评估使用定制聚醚醚酮(PEEK)桩核修复的门牙与传统桩核修复的门牙的应力水平。材料与方法利用微计算机断层扫描(μCT)成像数据,建立上颌切牙的三维模型。对于每种材料类型,通过专门的软件开发3D网格模型。考虑两种桩径,2.5 mm和3.5 mm。研究了五种不同的立柱材料:未填充聚醚醚酮(UP组);玻璃纤维增强聚醚醚酮(GP族);碳纤维增强聚醚醚酮(CP族);金属(M类);和氧化锆陶瓷(Z组)。对每个模型进行有限元分析,然后确定von Mises等效应力值。结果对于跨冠、冠骨水泥、桩骨水泥和牙本质的宽径桩和窄径桩模型,PEEK桩(UP组、GP组和CP组)的von Mises应力值高于Z组和m组,但桩模型本身的趋势相反。在桩水泥模型中,只有窄径桩组的应力值相似。值得注意的是,Z组和M组的结果基本一致。结论PEEK桩具有较低的弹性模量,与氧化锆和金属桩相比具有不同的应力值。随着桩径的扩大,残余牙本质减少,影响了不同材料间的应力值。进一步的体外和临床检查是全面了解PEEK岗位的必要条件。
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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Comparative Stress Analysis of Custom-Made PEEK Dental Post-Cores versus Conventional Post-Cores in Incisor Restorations: A Finite Element Study.

BACKGROUND We conducted a finite element analysis to evaluate stress levels in incisor teeth restored with custom polyetheretherketone (PEEK) dental post-cores compared to conventional post-cores. MATERIAL AND METHODS Using micro-computed tomography (μCT) imaging data, a 3D model of a maxillary incisor was created. For each material type, 3D mesh models were developed via specialized software. Two post diameters, 2.5 mm and 3.5 mm, were considered. Five different post materials were examined: Unfilled polyetheretherketone (Group UP); Glass fiber-reinforced polyetheretherketone (Group GP); Carbon fiber-reinforced polyetheretherketone (Group CP); Metal (Group M); and Zirconia ceramic (Group Z). Each model underwent finite element analysis, after which the von Mises equivalent stress values were determined. RESULTS For models involving both wide and narrow diameter posts across the crown, crown cement, post cement, and dentin, PEEK posts (Group UP, GP, and CP) exhibited higher von Mises stress values than Groups Z and M. However, the reverse trend was noticed in the post model itself. In the post cement model, stress values appeared similar only for the narrow-diameter post groups. Notably, results for Groups Z and M were largely consistent with each other. CONCLUSIONS PEEK posts, which have a lower modulus of elasticity, demonstrated different stress values when contrasted with zirconia and metal posts. As the post diameter expanded, the residual dentin decreased, influencing the stress values among various materials. Further in vitro and clinical examinations are essential to comprehensively understand PEEK posts.

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