Litcius/Paper detail

Recent advances in the use of inorganic nanomaterials as anti caries agents

Athraa Y. Al-Hijazi, Nada Hasan, Bassem Karim Nasr, Hanadi Hadi Jasim Al-Khafaji, Buthaina Al-Khafaji, Bahaa Fawzi Abdah Alanssari, Abduladheem Turki Jalil

2023Heliyon23 citationsDOIOpen Access PDF

Abstract

Caries is the most prevalent and widespread chronic oral disease. Traditional caries filling materials, due to their lack of anti-caries capabilities, can readily develop secondary caries. Nanomaterials proposed as an effective approach for caries treatment can inhibit biofilm formation. It also can not only reduce demineralization but also promote remineralization. In recent years, nanotechnology in anti-caries materials, particularly nano-adhesive and nano-composite resin, has advanced rapidly. Because inorganic nanoparticles (NPs) interfere with bacterial metabolism and inhibit biofilm development, inorganic NPs have emerged as a new trend in dental applications. Metal and metal oxide NPs by releasing metal ions, oxidative stress induction, and non-oxidative mechanisms showed significant antimicrobial activity. For applying metal and metal oxide NPs as anti caries agents, silver, zinc, titanium, copper, and calcium ions have been shown significant attention. Moreover, fluoride functionalized inorganic NPs were also employed to improve their efficacy of them. The fluoride-functionalized NPs can promote remineralization, and inhibit demineralization by enhancing apatite formation. In this review, we have provided an overview and recent advances in the use of inorganic NPs as anti caries agents. Furthermore, their antimicrobial, remineralizing, and mechanical impacts on dental materials were discussed.

Topics & Concepts

DemineralizationNanomaterialsRemineralisationBiofilmFluorideChemistryNanotechnologyAntimicrobialDentistryMaterials scienceMedicineInorganic chemistryEnamel paintOrganic chemistryBacteriaGeneticsBiologyOral microbiology and periodontitis researchDental materials and restorationsFluoride Effects and Removal