Physicochemical properties, biological chemistry and mechanisms of action of caries-arresting diammine-silver(I) fluoride and silver(I)-fluoride solutions for clinical use: a critical review †

IF 3 Q1 DENTISTRY, ORAL SURGERY & MEDICINE
Kayleigh Hunwin, Georgina Page, Mark Edgar, Adolfo Botana, Rachel Armitage, Mohammed Bhogadia, Unmesh Desai, S. Duffin, Marcus Duffin, Wyman Chan, Martin Grootveld
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Abstract

This paper serves as a Part II follow-up of our research investigations performed on the molecular structures of silver(I)-fluoride (SF) and diammine-silver(I) fluoride (SDF) complexes in solution-based commercial products for clinical application, their precise chemical compositions, and their nature in aqueous solution, the latter including rapid fluoride-exchange processes at the silver(I) ion centre monitored by 19F NMR analysis (Part I). Part I of this series also explores the mechanisms of action (MoA) of these complexes, and is therefore largely focused on their chemical reactions with constituents of human saliva, which has access to their sites of application. Such reactions were found to slowly promote the generation of potentially physiologically-active Ag/AgCl nanoparticles from primarily-generated discoloured silver(I) chloride (AgCl) precipitates, a process involving salivary electron-donors such as thiocyanate and L-cysteine. Since this research has shed new light on potential MoAs for these products, in this accompanying report (Part II), we have performed a critical review of scientific literature in order to rationalize our results in relation to current views on these mechanisms for SF and SDF products employed for the successful clinical arrest of dental caries. Following an Introduction to the subject matter ( Section 1), this paper comprises a generalized overview of silver coordination chemistry ( Section 2), which is followed by a section focused on the aqueous solution status and equilibria involved in SF chemistry ( Section 3), the latter including results acquired from an original simulation of the electronic absorption spectra of coloured SF complexes in aqueous solution (Section 3.1). Section 4 then investigates detailed rationales for the biologically-relevant ligand-exchange and redox chemistries, disposition and fates of SF, SDF and silver(I)-nitrate when employed for the treatment of dental caries, with emphasis placed on their therapeutic MoAs. This Section is supported by the provision of valuable information centralized on (1) relevant biomolecular chemistry involved in solution- and solid-state matrices ( Section 4.1); (2) SF and perhaps silver(I)-nitrate as more cost-effective alternatives to SDF therapies ( Section 4.2); and (3) the potential therapeutic benefits and effects offered by silver-based nanoparticles and their associated MoAs ( Section 4.3). Recommendations for future investigations in this area are proposed.
临床用龋齿捕获二胺-氟化银(I)和氟化银(I)溶液的理化性质、生物化学和作用机制:重要综述†
本文是我们对临床应用的溶液型商业产品中的氟化银(SF)和二氨氟化银(SDF)复合物的分子结构、精确化学成分及其在水溶液中的性质(后者包括通过 19F NMR 分析监控的银(I)离子中心的快速氟交换过程(第一部分))所做研究调查的第二部分后续报告。本系列的第一部分还探讨了这些复合物的作用机制(MoA),因此主要侧重于它们与人类唾液成分的化学反应,因为人类唾液可以进入复合物的应用场所。研究发现,这种反应能缓慢地促进从主要生成的变色氯化银(AgCl)沉淀中生成具有潜在生理活性的 Ag/AgCl 纳米粒子,这一过程涉及唾液电子供体,如硫氰酸盐和 L-半胱氨酸。由于这项研究为这些产品的潜在MoAs提供了新的线索,因此在本报告(第二部分)中,我们对科学文献进行了批判性的回顾,以便根据目前对SF和SDF产品的这些机制的看法,对我们的研究结果进行合理的解释,从而成功地在临床上阻止龋齿的产生。在主题介绍(第 1 节)之后,本文概述了银配位化学(第 2 节),随后的章节重点介绍了 SF 化学所涉及的水溶液状态和平衡(第 3 节),后者包括对水溶液中有色 SF 复合物的电子吸收光谱进行原始模拟所获得的结果(第 3.1 节)。然后,第 4 节详细研究了 SF、SDF 和硝酸银(I)在用于治疗龋齿时与生物相关的配体交换和氧化还原化学性质、处置和命运的原理,重点是它们的治疗作用。本节提供的宝贵信息集中在以下几个方面:(1) 溶液和固态基质中涉及的相关生物分子化学(第 4.1 节);(2) SF 和硝酸银(I)作为 SDF 疗法更具成本效益的替代品(第 4.2 节);(3) 银基纳米粒子及其相关 MoAs 带来的潜在治疗益处和效果(第 4.3 节)。对这一领域未来的研究提出了建议。
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
CiteScore
3.30
自引率
0.00%
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审稿时长
13 weeks
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