Biocompatibility of glass-ionomer cements in dentistry

M. Stoykov, M. Milkov
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Abstract

Biocompatibility takes into account the ability of a material to elicit a specific biological response after administration to a living organism. The concept does not define only one quality of the material, but reflects a complex of interactions with the biological environment in which it is placed. Over time, the definition of biocompatibility has gradually changed. Dental cements are the main clinical obturating materials. First created by Wilson and Kent in 1969, glass ionomer (polyalkenoate) cements have become widely used in medicine and dentistry. The purpose of this review is to discuss the biocompatibility of glass ionomer cements. Scientific databases - PubMed and SCOPUS were used to find appropriate studies in English on the topic of this article, with the following keywords - biocompatibility, glass ionomer cements, dentistry. A time period of 2000-2021 was set to screen articles and track the progress of the biocompatibility of dental cements in the new millennium. In addition to the cited scientific databases and articles such as clinical trials, review articles, meta-analyzes, writing of the report included information from Bulgarian and foreign textbooks in English on the subject. After applying the screening criteria, 61 results were displayed in SCOPUS and 215 in PubMed. From them, selected articles that describe experimental productions with testing the properties of cements, incl. to living cells, were reviewed. Science has found that by modifying the composition of the powder and the liquid of the cement, properties and biocompatibility can be affected. Modifications with the addition of nanoparticles hydroxylapatite and silica, carbon nanocompounds, zinc ions, cellulose microfiber and nanocrystals, amorphous calcium phosphate, chlorhexidine, collagen type 1 and peptides have been reported. Cement liquid has also been improved, which changes its properties. In the given time period between 2000-2021 there is a rapid rise of development and improvement of the properties of already synthesized cements. Efforts are being made to study the biocompatibility of materials and their properties to help tissue regeneration. There is also a wider use of materials and their implementation into various fields of medicine and dentistry.
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牙科用玻璃离子聚合物胶合剂的生物相容性
生物相容性考虑到材料在给药于活生物体后引起特定生物反应的能力。这个概念不仅定义了材料的一种质量,而且反映了它所处的生物环境的复杂相互作用。随着时间的推移,生物相容性的定义逐渐发生了变化。牙水泥是临床主要的封闭材料。威尔逊和肯特于1969年首次发明了玻璃离聚体(聚烯酸盐)水泥,已广泛应用于医学和牙科。本文综述了玻璃离子水门栓的生物相容性。科学数据库- PubMed和SCOPUS被用来查找与本文主题相关的英文研究,关键词:生物相容性,玻璃离子聚合物水泥,牙科。2000年至2021年期间将筛选文章并跟踪新千年牙水泥生物相容性的进展。除了引用临床试验、评论文章、元分析等科学数据库和文章外,报告的写作还包括保加利亚和外国英语教科书中关于该主题的信息。应用筛选标准后,SCOPUS中显示61个结果,PubMed中显示215个结果。从中,选定的文章,描述了实验产品与测试水泥的性质,包括活细胞,进行了审查。科学发现,通过改变水泥粉末和液体的成分,可以影响其性能和生物相容性。纳米羟基磷灰石和二氧化硅、碳纳米化合物、锌离子、纤维素微纤维和纳米晶体、无定形磷酸钙、氯己定、1型胶原蛋白和多肽的改性已经被报道过。水泥液也得到了改进,从而改变了其性能。在2000年至2021年这段时间内,已经合成的水泥的性能得到了快速的发展和改善。人们正在努力研究材料的生物相容性及其特性,以帮助组织再生。也有更广泛的使用材料和他们的实施到医学和牙科的各个领域。
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