Graphene – Scope in conservative dentistry and endodontics

Priyankita Kar, R. Varghese, Naina Agrawal, HimanshiSolanki Jhaveri
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Abstract

Graphene, a member of the carbon family, is the strongest, stiffest, and thinnest known material, with a thickness of 10 nm. It has emerged as engineered nanomaterials and nanomedicines in dentistry with promising results. Usually produced employing Hummers method, graphene possesses excellent physiomechanical properties, electrical conductivity, stability, biocompatibility, and biodegradability. Owing to their interactions with dental pulp stem cells, they have been functionalized with many scaffolds in regenerative dentistry, to upregulate the odontogenic and osteogenic genes. This emerging science of graphene-based materials has also been used for the debridement of root canals. Their unique property of antibiofilm and antiadhesiveness has been used to prevent dental caries and erosions. In addition, they have been incorporated into various biomaterials to enhance their original properties, like in glass ionomers, biodentine, and in bleaching agents like hydrogen peroxide. Depending on their concentration and time of exposure to the substrate, graphene and their derivatives can be effective antibacterial agents. This updated review provides useful information on the promising introduction of graphene in the field of conservative dentistry and endodontics.
石墨烯-保守牙科和牙髓学的应用范围
石墨烯是碳家族的一员,是已知最坚固、最坚硬、最薄的材料,厚度为10纳米。它已经作为工程纳米材料和纳米药物出现在牙科领域,并取得了可喜的成果。石墨烯通常采用Hummers方法生产,具有优异的物理力学性能、导电性、稳定性、生物相容性和生物降解性。由于它们与牙髓干细胞的相互作用,它们在再生牙科中被许多支架功能化,以上调成牙和成骨基因。石墨烯基材料这一新兴科学也被用于根管清创。其独特的抗膜性和抗粘连性已被用于预防龋齿和腐蚀。此外,它们还被加入到各种生物材料中,以增强其原有的性能,如玻璃离子聚体、生物牙登碱和漂白剂,如过氧化氢。根据其浓度和暴露于底物的时间,石墨烯及其衍生物可以成为有效的抗菌剂。这篇最新的综述为石墨烯在保守牙科和牙髓学领域的应用提供了有用的信息。
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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