Oxygen as obturation biomaterial in endodontic treatment: development of novel membranous dental restoration system.

Q2 Pharmacology, Toxicology and Pharmaceutics F1000Research Pub Date : 2024-11-06 eCollection Date: 2023-01-01 DOI:10.12688/f1000research.132479.2

Didi Wahyudi, Citra Kusumasari

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Abstract

Complexities in obturation and difficulties in disinfection are the major problems that make endodontic treatment very time-consuming. A new perspective is needed to reduce the working time as well as to answer these two problems. Until now, none of the established obturation techniques for root canal filling can guarantee a perfect seal. Solid substances cannot be manipulated easily to fill the tiny branches of the root canal system hermetically. At the same time, anaerobes and facultative anaerobes, especially Enterococcus faecalis, are very dominant in endodontic infections discussion. As shown in many studies, it is extremely difficult to perfectly disinfect Enterococcus faecalis even by using some irrigating solutions with strong antibacterial properties. Under anaerobic conditions, the invasion efficiency of facultative anaerobes is increased. In case irrigation and disinfection cannot totally eliminate anaerobes and facultative anaerobes, a new strategy is also needed to deal with the bacteria that still survive in the root canal. Oxygen can fill the root canal system with ease, eliminate anaerobes, and prevent facultative anaerobes from being pathogenic. Therefore, using oxygen as obturation biomaterial after proper cleaning and shaping procedures is expected to solve the two major endodontic problems. The aim of this article was to discuss a new possible concept of dental restoration system that uses an oxygen-permeable membrane to decrease the time required in endodontic treatment. The membrane is placed at the orifice of a duct created to connect the entire root canal system with free air outside the restoration. The function of the membrane is more or less similar to the mask used during the COVID-19 pandemic, as it enables the oxygen to circulate while preventing any fluid, debris, and microorganisms from passing. We hypothesize that the oxygen circulating in the root canal system will also act as an antimicrobial agent that is constantly renewed.

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氧气作为牙髓治疗中的封闭生物材料：新型膜牙科修复系统的开发。

牙髓治疗的主要问题是上药复杂和消毒困难，这使得牙髓治疗非常耗时。我们需要一个新的视角来缩短工作时间并解决这两个问题。到目前为止，还没有一种成熟的根管充填封固技术能够保证完美的密封性。固体物质不容易操作，无法密封填充根管系统的细小分支。同时，厌氧菌和兼性厌氧菌，尤其是粪肠球菌，在牙髓感染的讨论中占主导地位。许多研究表明，即使使用一些具有强抗菌特性的冲洗液，也很难对粪肠球菌进行完美的消毒。在厌氧条件下，兼性厌氧菌的入侵效率会提高。如果灌洗和消毒不能完全消除厌氧菌和兼性厌氧菌，那么还需要一种新的策略来处理根管内仍然存活的细菌。氧气可以轻松填充根管系统，消除厌氧菌，防止兼性厌氧菌致病。因此，在经过适当的清洁和塑形程序后，使用氧气作为封闭生物材料有望解决这两大牙髓问题。本文旨在讨论一种可能的牙科修复系统新概念，即使用透氧膜来减少牙髓治疗所需的时间。该膜被放置在一个管道的开口处，该管道是为了将整个根管系统与修复体外的自由空气连接起来而创建的。透气膜的功能与 COVID-19 大流行时使用的口罩大致相同，因为它可以使氧气循环，同时防止任何液体、碎屑和微生物通过。我们假设，在根管系统中循环的氧气也将作为一种抗菌剂不断更新。

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

F1000Research Pharmacology, Toxicology and Pharmaceutics-Pharmacology, Toxicology and Pharmaceutics (all)

CiteScore

5.00

自引率

0.00%

发文量

1646

审稿时长

1 weeks

期刊介绍： F1000Research publishes articles and other research outputs reporting basic scientific, scholarly, translational and clinical research across the physical and life sciences, engineering, medicine, social sciences and humanities. F1000Research is a scholarly publication platform set up for the scientific, scholarly and medical research community; each article has at least one author who is a qualified researcher, scholar or clinician actively working in their speciality and who has made a key contribution to the article. Articles must be original (not duplications). All research is suitable irrespective of the perceived level of interest or novelty; we welcome confirmatory and negative results, as well as null studies. F1000Research publishes different type of research, including clinical trials, systematic reviews, software tools, method articles, and many others. Reviews and Opinion articles providing a balanced and comprehensive overview of the latest discoveries in a particular field, or presenting a personal perspective on recent developments, are also welcome. See the full list of article types we accept for more information.