关于白斑病变的牙釉质和牙本质特征：力学性能、矿物质密度、微观结构和分子组成

Characterization of Enamel and Dentine about a White Spot Lesion: Mechanical Properties, Mineral Density, Microstructure and Molecular Composition.

作者信息

Sadyrin Evgeniy, Swain Michael, Mitrin Boris, Rzhepakovsky Igor, Nikolaev Andrey, Irkha Vladimir, Yogina Diana, Lyanguzov Nikolay, Maksyukov Stanislav, Aizikovich Sergei

机构信息

Research and Education Center "Materials", Don State Technical University, Gagarin Square 1, 344000 Rostov-on-Don, Russia.

Biomaterials and Bioengineering department, Faculty of Dentistry, The University of Sydney, Camperdown, Sydney NSW 2006, Australia.

出版信息

Nanomaterials (Basel). 2020 Sep 21;10(9):1889. doi: 10.3390/nano10091889.

DOI:10.3390/nano10091889

PMID:32967152

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7560001/

Abstract

The study focuses on in vitro tracing of some fundamental changes that emerge in teeth at the initial stage of caries development using multiple approaches. The research was conducted on a mostly sound maxillary molar tooth but with a clearly visible natural proximal white spot lesion (WSL). Values of mineral density, reduced Young's modulus, indentation hardness and creep as well as the molecular composition and surface microstructure of the WSL and bordering dentine area were studied. The results obtained were compared to those of sound enamel and dentine on the same tooth. A decrease of mechanical properties and mineral density both for the WSL and bordering dentine was detected in comparison to the sound counterparts, as well as increase of creep for the enamel WSL. Differences in molecular composition and surface microstructure (including the indenter impressions) were found and described. WSL induces a serious change in the state of not only the visually affected enamel but also surrounding visually intact enamel and dentine in its vicinity. The results provide the basis for future studies of efficacy of minimal invasive treatments of caries.

摘要

该研究聚焦于使用多种方法对龋齿发展初期牙齿出现的一些基本变化进行体外追踪。研究针对一颗大部分完好的上颌磨牙展开，但该牙有一处清晰可见的天然邻面白斑病变（WSL）。研究了WSL及其相邻牙本质区域的矿物密度、折合杨氏模量、压痕硬度和蠕变值，以及分子组成和表面微观结构。将所得结果与同一颗牙齿上完好的釉质和牙本质的结果进行比较。与完好的对应部位相比，检测到WSL及其相邻牙本质的力学性能和矿物密度均有所下降，釉质WSL的蠕变也有所增加。发现并描述了分子组成和表面微观结构（包括压痕）的差异。WSL不仅会使视觉上受影响的釉质状态发生严重变化，还会使其附近视觉上完好的釉质和牙本质状态发生变化。这些结果为未来龋齿微创治疗效果的研究提供了依据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/906b/7560001/e151b457c226/nanomaterials-10-01889-g001.jpg

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关于白斑病变的牙釉质和牙本质特征：力学性能、矿物质密度、微观结构和分子组成

Characterization of Enamel and Dentine about a White Spot Lesion: Mechanical Properties, Mineral Density, Microstructure and Molecular Composition.

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