Evaluation of Implant Location on Fiber-Reinforced Maxillary Overdentures with Finite Element Method.

IF 1.7 4区 医学 Q3 DENTISTRY, ORAL SURGERY & MEDICINE International Journal of Oral & Maxillofacial Implants Pub Date : 2023-05-01 DOI:10.11607/jomi.9946
Elifnur S Güzelce, Emre Tokar, Özgül Karacer
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引用次数: 1

Abstract

Purpose: To examine and compare stress values of implants, highest tensile and compressive values, and their distribution in cortical and trabecular bone near and around the implant region using different materials (aramid fiber, glass fiber, polyethylene fiber, carbon fiber, and cobalt-chromium [Co-Cr] alloy). Four dental implants were placed in the maxillary crest with two different location scenarios, and the 3D finite element analysis method was used to evaluate stress characteristics.

Materials and methods: Two maxillary models were created in which the implants were placed in different locations (lateral and first premolar, canine and second premolar). Four implant-supported overdenture prostheses were reinforced, applying Co-Cr alloy, glass fiber, aramid fiber, and carbon fiber. Static loads of 200 N were applied on the first molar region using the food stuff method. Stresses around the implants and denture-bearing areas and compression and tensile stresses on the cortical and trabecular bone were evaluated.

Results: In all tested models, the highest von Mises stresses on implants and prostheses were observed in aramid fiber-reinforced overdentures. This was followed by glass fiber, Co-Cr alloy, and carbon fiber groups, respectively. It was observed that the lowest tensile and highest compression stress values in cortical and trabecular bone occurred in prostheses supported with carbon fiber. In all infrastructure materials, the design in which the implants were placed bilaterally in the lateral teeth and the first premolar region was found to be advantageous in terms of stress levels and distribution.

Conclusion: High elastic modulus fiber-reinforced overdenture prostheses transmitted less stress to implants and surrounding tissues than Co-Cr alloy. Anteriorly placed implant design illustrated lower stress values in the prosthesis, implant, and cortical and trabecular bone, and this placement design may increase the survival rates of both dental implants and overdentures. In light of this study, fibers can be recommended for clinical use and securely applied as an alternative material to metal support. Int J Oral Maxillofac Implants 2023;38:523-532. doi: 10.11607/jomi.9946.

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用有限元法评价纤维加固上颌覆盖义齿种植体定位。
目的:观察和比较不同材料(芳纶纤维、玻璃纤维、聚乙烯纤维、碳纤维和钴铬合金)种植体的应力值、最高拉伸和压缩值及其在种植区附近和周围皮质骨和骨小梁中的分布。将4颗种植牙分别放置在两种不同的位置场景下,采用三维有限元分析方法评估其应力特性。材料和方法:制作两个上颌模型,种植体放置在不同的位置(侧和第一前臼齿,犬齿和第二前臼齿)。采用钴铬合金、玻璃纤维、芳纶纤维和碳纤维对4个种植覆盖义齿进行加固。采用食品材料法对第一摩尔区施加200 N的静载荷。评估种植体和义齿承载区周围的应力以及皮质骨和小梁骨的压缩和拉伸应力。结果:在所有测试模型中,芳纶纤维增强覆盖义齿对种植体和修复体的von Mises应力最高。其次是玻璃纤维、钴铬合金和碳纤维。观察到碳纤维支撑的假体在皮质骨和小梁骨中出现了最低的拉伸和最高的压缩应力值。在所有基础材料中,种植体放置在侧牙和第一前磨牙区域的设计在应力水平和分布方面是有利的。结论:高弹性模量纤维增强覆盖义齿对种植体和周围组织的应力传递比钴铬合金小。前位种植体设计表明假体、种植体、皮质骨和骨小梁的应力值较低,这种放置设计可以提高种植体和覆盖义齿的存活率。根据这项研究,纤维可以推荐临床使用,并且可以安全地作为金属支撑的替代材料。口腔颌面种植[J]; 2009;38:523-532。doi: 10.11607 / jomi.9946。
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来源期刊
CiteScore
3.30
自引率
5.00%
发文量
115
审稿时长
6 months
期刊介绍: Edited by Steven E. Eckert, DDS, MS ISSN (Print): 0882-2786 ISSN (Online): 1942-4434 This highly regarded, often-cited journal integrates clinical and scientific data to improve methods and results of oral and maxillofacial implant therapy. It presents pioneering research, technology, clinical applications, reviews of the literature, seminal studies, emerging technology, position papers, and consensus studies, as well as the many clinical and therapeutic innovations that ensue as a result of these efforts. The editorial board is composed of recognized opinion leaders in their respective areas of expertise and reflects the international reach of the journal. Under their leadership, JOMI maintains its strong scientific integrity while expanding its influence within the field of implant dentistry. JOMI’s popular regular feature "Thematic Abstract Review" presents a review of abstracts of recently published articles on a specific topical area of interest each issue.
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