Investigation of the effects of orthodontic brackets coated by silver hydroxyapatite, copper oxide, and titanium oxide nanoparticles on wire-bracket friction

Abstract: Objectives: Coating orthodontic brackets with metal nanoparticles seem to affect surface roughness and friction. We aim to compare the effects of coating brackets with copper oxide (CuO), titanium dioxide (TiO2), and silver hydroxyapatite (S-HAP) on friction between brackets and various sizes and materials of orthodontic wires. Material and Methods: In this experimental study, we selected four groups of stainless steel (SS) brackets with eight orthodontic wires (SS and nickel-titanium [Niti]) in different si… Show more

“…Metal oxide-based NPs have been used to improve the performance of biocomponent surfaces, particularly as antimicrobial agents for multiple biomedical applications [469]. According to the literature, the following types of metallic oxide NPs have been considered to cover metallic fixed appliances: ZnO- [367,[437][438][439][440][441][442][443]445] and/or CuO-NPs [437,446,447], AlO-NPs [444], TiO 2 -NPs [446][447][448][449], and Ag-HA-NPs [446,447], as presented in Table 9.…”

“…Coating physical stability was the main downside: Around 60% of the coating showed adhesion failures [448]. Ameli et al [446,447] showed that TiO 2 -NPs and Cu-NPs coatings on SS brackets deposited by a sol-gel method possessed antibacterial properties and could significantly reduce the friction against metallic archwires. Chaturvedi and colleagues [450] dip-coated β-Ti and NiTi archwires with TiO 2 -NPs using different concentrations and dipping durations.…”

Corrosion of Fixed Orthodontic Appliances: Causes, Concerns, and Mitigation Strategies

“…Metal oxide-based NPs have been used to improve the performance of biocomponent surfaces, particularly as antimicrobial agents for multiple biomedical applications [469]. According to the literature, the following types of metallic oxide NPs have been considered to cover metallic fixed appliances: ZnO- [367,[437][438][439][440][441][442][443]445] and/or CuO-NPs [437,446,447], AlO-NPs [444], TiO 2 -NPs [446][447][448][449], and Ag-HA-NPs [446,447], as presented in Table 9.…”

“…Coating physical stability was the main downside: Around 60% of the coating showed adhesion failures [448]. Ameli et al [446,447] showed that TiO 2 -NPs and Cu-NPs coatings on SS brackets deposited by a sol-gel method possessed antibacterial properties and could significantly reduce the friction against metallic archwires. Chaturvedi and colleagues [450] dip-coated β-Ti and NiTi archwires with TiO 2 -NPs using different concentrations and dipping durations.…”

Corrosion of Fixed Orthodontic Appliances: Causes, Concerns, and Mitigation Strategies

Evolution of the Antibacterial and Cellular Viability Effects of Silica-Hydroxyapatite Conjugated High Cerium Oxide Nanoparticles on Orthodontic Brackets