Finite Element Analysis of Anterior Implant-Supported Restorations with Different CAD-CAM Restorative Materials.

Q1 Dentistry European Journal of Dentistry Pub Date : 2025-02-01 Epub Date: 2024-05-14 DOI:10.1055/s-0044-1785532

Usanee Puengpaiboon, Nichapat Rattanapan, Vamsi Krishna Pasam, Chamaiporn Sukjamsri

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Abstract

Objectives: Due to the lack of literature concerning the selection of crown materials for the restoration of anterior teeth, this study aimed to investigate the effects of six distinct computer-aided design and computer-aided manufacturing (CAD-CAM) crown materials on stress and strain distribution within implant-supported maxillary central incisor restorations, employing finite element analysis (FEA). Furthermore, a comparative analysis was conducted between models that incorporated adjacent natural teeth and those that did not, intending to guide the selection of the most suitable modeling approach.

Materials and methods: Crown materials, including Lava Ultimate, Enamic, Emax CAD, Suprinity, Celtra Duo, and Cercon xt ML, were the subjects of the investigation. FEA models incorporating Coulomb friction were developed. These models were subjected to an oblique load, simulating the average maximum bite force experienced by anterior teeth. The potential for failure in titanium implant components and the prosthesis crown was evaluated through von Mises and principal stress, respectively. Furthermore, the failure of crestal bone was assessed through principal strain values.

Statistical analysis: Stress values for each implant component and strain values of the bone were extracted from the models. To assess the impact of the six groups of crown materials, Kruskal-Wallis analysis of variance and post-hoc comparisons were conducted. Additionally, a statistical comparison between the two groups with Lava Ultimate and Cercon xt ML was performed using the Mann-Whitney U test to determine the difference in the two modeling approaches.

Results: Higher crown material stiffness led to decreased stress in the abutment, fixture, and retaining screw, along with reduced strain in the surrounding bone. However, the decrease in stress and strain values became less significant with increasing crown stiffness. Additionally, the model with adjacent teeth showed significantly lower stress and strain concentrations compared to the model without adjacent teeth.

Conclusion: Crowns with a high elastic modulus were the optimal choice for anterior teeth restoration. Constructing FEA models with adjacent teeth was highly recommended to gain a deeper understanding of the mechanical behavior of dental implant restorations.

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使用不同 CAD-CAM 修复材料的前种植体支撑修复体的有限元分析。

研究目的由于缺乏有关前牙修复牙冠材料选择的文献，本研究旨在通过有限元分析（FEA）研究六种不同的计算机辅助设计和计算机辅助制造（CAD-CAM）牙冠材料对种植体支持的上颌中切牙修复体内部应力和应变分布的影响。此外，还对包含相邻天然牙和不包含相邻天然牙的模型进行了比较分析，以指导选择最合适的建模方法：研究对象是牙冠材料，包括 Lava Ultimate、Enamic、Emax CAD、Suprinity、Celtra Duo 和 Cercon xt ML。开发了包含库仑摩擦的有限元分析模型。这些模型承受了斜向载荷，模拟了前牙所承受的平均最大咬合力。分别通过冯米塞斯应力和主应力评估了钛种植体组件和修复体牙冠的失效可能性。此外，还通过主应变值评估了牙槽骨的失效情况：统计分析：从模型中提取了每个种植体组件的应力值和骨的应变值。为了评估六组牙冠材料的影响，进行了 Kruskal-Wallis 方差分析和事后比较。此外，还使用 Mann-Whitney U 检验对两组 Lava Ultimate 和 Cercon xt ML 进行了统计比较，以确定两种建模方法的差异：结果：较高的牙冠材料硬度降低了基台、夹具和固位螺丝的应力，同时降低了周围骨的应变。然而，随着牙冠硬度的增加，应力和应变值的减少也变得不那么明显。此外，与无邻牙的模型相比，有邻牙的模型显示出明显较低的应力和应变集中度：结论：弹性模量高的牙冠是前牙修复的最佳选择。强烈建议构建带邻牙的有限元分析模型，以便更深入地了解种植牙修复体的机械行为。

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来源期刊

European Journal of Dentistry Dentistry-Dentistry (all)

CiteScore

5.10

自引率

0.00%

发文量

161

期刊介绍： The European Journal of Dentistry is the official journal of the Dental Investigations Society, based in Turkey. It is a double-blinded peer-reviewed, Open Access, multi-disciplinary international journal addressing various aspects of dentistry. The journal''s board consists of eminent investigators in dentistry from across the globe and presents an ideal international composition. The journal encourages its authors to submit original investigations, reviews, and reports addressing various divisions of dentistry including oral pathology, prosthodontics, endodontics, orthodontics etc. It is available both online and in print.