The Fracture Resistance Comparison between Titanium and Zirconia Implant Abutments with and without Ageing: Systematic Review and Meta-Analysis.

IF 2.5 Q2 DENTISTRY, ORAL SURGERY & MEDICINE Dentistry Journal Pub Date : 2024-08-23 DOI:10.3390/dj12090274
Marek Chmielewski, Wojciech Dąbrowski, Iwona Ordyniec-Kwaśnica
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Abstract

Implant abutments are essential components of implant prosthetic restorations. The golden standard for abutment material is titanium; however, due to its properties, the esthetic result can be compromised. The most popular esthetic material alternatives are one- and two-piece zirconia. The study aimed to answer the questions of whether zirconia abutments can be used interchangeably with titanium in both anterior and posterior regions and how aging of the abutment affects durability. For this study, an electronic search of MEDLINE (PubMed) and Scopus (Embase) was conducted. The PRISMA guidelines were followed, and a systematic review was registered with PROSPERO. The search revealed 4031 results, of which 17 studies were selected. The strongest material for abutments is titanium, closely followed by two-piece zirconia. One-piece zirconia abutments were the weakest. The cyclic loading above 1,000,000 cycles decreased the fracture resistance of the abutments. Differences in implant diameter, angulation, and restoration affected the fracture strength of all compared materials. The main mode of failure for titanium abutments was screw bending or screw fracture. One-piece zirconia most often presented catastrophic failure with internal hexagon fracture below the implant neck. Two-piece zirconia exhibits a combination of failure modes. Two-piece zirconia abutments may be suitable for use in the posterior region, given their comparable fracture resistance to titanium abutments. Despite the fact that one-piece zirconia is capable of withstanding forces that exceed those exerted during mastication, it is recommended that it be employed primarily in the anterior dentition due to its propensity for unfavorable failure modes.

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钛和氧化锆种植体基台抗折性的老化与非老化比较:系统回顾与元分析。
种植基台是种植修复体的重要组成部分。基台材料的黄金标准是钛,但由于其特性,美观效果可能会大打折扣。最受欢迎的美学材料是单片和双片氧化锆。该研究旨在回答氧化锆基台是否可以与钛基台在前牙和后牙区域交替使用,以及基台的老化对耐久性有何影响等问题。本研究对 MEDLINE(PubMed)和 Scopus(Embase)进行了电子检索。研究遵循了 PRISMA 指南,并在 PROSPERO 注册了系统性综述。搜索结果显示有 4031 项研究,其中有 17 项研究被选中。最坚固的基台材料是钛,紧随其后的是两件式氧化锆基台。一片式氧化锆基台是最薄弱的。超过 1,000,000 次的循环负荷降低了基台的抗折性。种植体直径、角度和修复方式的不同会影响所有比较材料的断裂强度。钛基台的主要失效模式是螺钉弯曲或螺钉断裂。一片式氧化锆最常见的失效方式是种植体颈部以下的内六角断裂。两件式氧化锆则表现出多种失效模式。由于两件式氧化锆基台的抗折性与钛基台相当,因此可能适合用于后牙区。尽管一片式氧化锆能够承受超过咀嚼时产生的力量,但由于其容易出现不利的失效模式,建议主要用于前牙区。
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来源期刊
Dentistry Journal
Dentistry Journal Dentistry-Dentistry (all)
CiteScore
3.70
自引率
7.70%
发文量
213
审稿时长
11 weeks
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