改善牙齿修复材料的核壳纳米结构:组成,方法和结果的范围审查

Q1 Engineering
Lamia Sami Mokeem , Isadora Martini Garcia , Yasmin Shahkarami , Lauren Blum , Abdulrahman A. Balhaddad , Fabrício Mezzomo Collares , Mary Ann Williams , Michael D. Weir , Mary Anne S. Melo
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引用次数: 4

摘要

牙科树脂粘接剂和复合材料是最常用的牙科修复材料,用于治疗空腔性蛀牙。这些材料在口腔内受到细菌酸攻击的挑战,缺乏生物活性,并且缺乏替代品来维持这些材料的机械性能。核壳纳米结构是由被保护壳包围的各种材料组成的。它们作为创新性的多用途载体,在牙科修复中显示出巨大的潜力,正受到越来越多的关注。在此,我们系统地回顾了最近的研究,核壳纳米结构纳入牙科树脂基材料,他们的预期性能,合成方法和评估测试采用。本研究采用范围审查方法,遵循Arksey和O'Malley的五阶段框架,使用PubMed和Scopus (Elsevier)数据库。从最初确定的149篇论文中,20篇研究符合全文筛选条件,15篇纳入数据提取。大多数纳入的研究都使用树脂复合材料作为母材。氧化硅是最普遍的外壳纳入牙科树脂。几乎所有的核壳纳米结构都是为了提高材料的强度和抗菌性能而添加的。讨论了设计策略和药物释放行为。最后,对该领域当前面临的挑战和前景进行了展望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Core-shell nanostructures for improving dental restorative materials: A scoping review of composition, methods, and outcome

Dental resin adhesives and composites are the most prevailing dental restorative materials used to treat cavitated tooth decay. These materials are challenged inside the mouth by bacterial acid attack, lack of bioactivity, and the scarcity of alternatives maintaining the mechanical properties over the lifetime service of these materials. Core-shell nanostructures are composed of various materials surrounded by a protective shell. They are acquiring considerable attention as innovative multipurpose carriers that show great potential in restorative dentistry. Herein, we systematically reviewed the recent studies on core-shell nanostructures incorporated into dental resin-based materials, their intended properties, synthesis methods, and assessment tests employed. This study used scoping review method, following Arksey and O'Malley's five stages framework using PubMed and Scopus (Elsevier) databases. From 149 initially identified manuscripts, 20 studies were eligible for full-text screening, and 15 were included for data extraction. The majority of included studies have used resin composite as parental material. Silica oxide was the most prevailing shell incorporated into dental resins. Almost all core-shell nanostructures were added to improve the material's strength and impart antibacterial properties. Designing strategies and drug release behaviors were discussed. In the end, current challenges and prospects in this promising field were highlighted.

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来源期刊
Smart Materials in Medicine
Smart Materials in Medicine Engineering-Biomedical Engineering
CiteScore
14.00
自引率
0.00%
发文量
41
审稿时长
48 days
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