Faculty of Dentistry, The University of Hong Kong, Hong Kong, PR China.
School of Dentistry, Shenzhen University Health Science Center, Shenzhen, PR China.
J Dent. 2024 Nov;150:105353. doi: 10.1016/j.jdent.2024.105353. Epub 2024 Sep 14.
The objective of this systematic review is to examine the methods used to minimize discoloration of the carious lesions after topical silver diamine fluoride (SDF) application.
DATA/SOURCES: Two independent researchers conducted a search of English literature published up to 30th April 2024 in three databases (PubMed, Scopus, and Web of Science). They screened titles and abstracts, excluding conference proceedings, books, reviews and publications unrelated to SDF. They included only original research on methods to minimize SDF-induced discoloration. The publications lacking comparative color change data were excluded. Full texts of the included articles were then analyzed. The Cochrane guidelines for clinical trials and the guidelines for in-vitro studies on dental materials were used for the risk of bias assessment.
The systematic review included 33 publications from 1,283 identified publications (26 laboratory studies and 7 clinical studies). Thirteen laboratory studies and five clinical studies were rated as having 'low risk'. Three main methods to minimize discoloration were identified: masking with restoration, using chemicals, and substituting silver with nano-silver. Nine studies used resin composite or glass ionomer cement to mask the SDF-induced discoloration. Twenty-nine studies used chemicals to reduce SDF-induced discoloration. These chemicals included precipitating agents like potassium iodide, oxidizing agents like hydrogen peroxide, and chelating agents like glutathione. Seven publications used chemicals (potassium iodide or glutathione) before restoration and six of them found improved masking effect. Four studies substituted silver ions with silver nanoparticles which did not discolor carious lesion.
Masking with restoration, using chemicals, and substituting silver ions with nano-silver particles have been reported to address the discoloring effects of SDF therapy. However, most are laboratory studies, and more clinical trials are needed to confirm their effectiveness in reducing SDF-induced discoloration.
SDF effectively arrests caries, but it discolors carious lesions. This review summarizes the methods and their outcomes for reducing SDF-induced discoloration. This study is supported by the General Research Fund of Research Grant Council No. 17,100,222.
本系统评价的目的是研究减少局部应用氨银(SDF)后龋齿病变变色的方法。
数据/来源:两名独立研究人员对截至 2024 年 4 月 30 日在三个数据库(PubMed、Scopus 和 Web of Science)中发表的英文文献进行了搜索。他们筛选了标题和摘要,排除了会议论文、书籍、与 SDF 无关的综述和出版物。他们仅纳入了关于减少 SDF 诱导变色的方法的原始研究。排除了缺乏比较颜色变化数据的出版物。然后分析了纳入文章的全文。临床研究的 Cochrane 指南和牙科材料的体外研究指南用于评估偏倚风险。
系统评价包括从 1283 篇已识别出版物中筛选出的 33 篇出版物(26 项实验室研究和 7 项临床研究)。13 项实验室研究和 5 项临床研究被评为“低风险”。确定了三种主要的最小化变色的方法:用修复体遮盖、使用化学物质和用纳米银代替银。9 项研究使用树脂复合材料或玻璃离子水门汀来遮盖 SDF 引起的变色。29 项研究使用化学物质来减少 SDF 引起的变色。这些化学物质包括沉淀剂如碘化钾、氧化剂如过氧化氢和螯合剂如谷胱甘肽。7 篇出版物在修复前使用了化学物质(碘化钾或谷胱甘肽),其中 6 篇发现遮盖效果有所改善。4 项研究用纳米银粒子代替银离子,而这些银离子不会使龋齿病变变色。
用修复体遮盖、使用化学物质以及用纳米银粒子代替银离子已被报道可解决 SDF 治疗的变色影响。然而,大多数是实验室研究,需要更多的临床试验来证实它们在减少 SDF 诱导的变色方面的有效性。
SDF 可有效阻止龋齿进展,但会使龋齿病变变色。本综述总结了减少 SDF 诱导变色的方法及其结果。本研究得到研究资助局第 17100222 号一般研究基金的支持。
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