Etiology of dental implant complication and failure—an overview

IF 1 Q4 ENGINEERING, BIOMEDICAL AIMS Bioengineering Pub Date : 2023-01-01 DOI:10.3934/bioeng.2023010
Anirudh Gupta, B. Kale, D. Masurkar, Priyanka Jaiswal
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Abstract

Dental implant treatment is turning into a widely accepted and popular treatment option for patients. With the growing era of dental implant therapy, complications and failures have also become common. Such intricacies are becoming a vexing issue for clinicians as well as patients. Implant failures can be due to mechanical or biological reasons. Failure of osseointegration of the implant falls under biological failures, whereas mechanical complications include fracture of the implant, framework or prosthetic components. Diligently observing the implant after placement is the first step in managing the declining circumstances. It is important to have a thorough understanding of how and why implants fail to achieve successful treatment outcomes in the long run. In dentistry, nanoparticles are used to make antibacterial chemicals that improve dental implants. They can be used in conjunction with acrylic resins for fabricating removable dentures during prosthetic treatments, composite resins for direct restoration during restorative treatments, endodontic irrigants and obturation materials during endodontic procedures, orthodontic adhesives and titanium coating during dental implant procedures. This article aimed to review the etiological factors that lead to implant failure and their solutions.
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牙种植体并发症和失败的病因学综述
植牙治疗正在成为一种广泛接受和流行的治疗选择。随着种植牙治疗时代的发展,并发症和失败也越来越普遍。对于临床医生和患者来说,这些错综复杂的问题正成为一个令人烦恼的问题。种植体失败可能是由于机械或生物原因。种植体骨整合失败属于生物失败,而机械并发症包括种植体、框架或假体部件的骨折。在植入后仔细观察种植体是处理下降情况的第一步。从长远来看,彻底了解种植体如何以及为什么不能取得成功的治疗结果是很重要的。在牙科领域,纳米颗粒被用来制造抗菌化学物质,以改善牙科植入物。它们可以与丙烯酸树脂结合使用,在修复治疗中用于制造可移动义齿,在修复治疗中用于直接修复的复合树脂,在牙髓治疗过程中用于牙髓冲洗剂和封闭材料,在牙种植过程中用于正畸粘接剂和钛涂层。本文旨在回顾导致种植体失败的原因及其解决方法。
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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来源期刊
AIMS Bioengineering
AIMS Bioengineering ENGINEERING, BIOMEDICAL-
自引率
0.00%
发文量
17
审稿时长
4 weeks
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