Abstract
2-methacryloyloxyethyl phosphorylcholine (MPC) is known to have antibacterial and protein-repellent effects, whereas mesoporous bioactive glass nanoparticles (MBN) are known to have remineralisation effects. We evaluated the antibacterial and remineralisation effects of mixing MPC and MBN at various ratios with orthodontic bonding agents. MPC and MBN were mixed in the following weight percentages in CharmFil-Flow (CF): CF, 3% MPC, 5% MPC, 3% MPC + 3% MBN, and 3% MPC + 5% MBN. As the content of MPC and MBN increased, the mechanical properties of the resin decreased. At 5% MPC, the mechanical properties decreased significantly with respect to CF (shear bond strength), gelation of MPC occurred, and no significant difference was observed in terms of protein adsorption compared to the control group. Composition 3% MPC + 5% MBN exhibited the lowest protein adsorption because the proportion of hydrophobic resin composite decreased; CF (91.8 ± 4.8 μg/mL), 3% MPC (73.9 ± 2.6 μg/mL), 3% MPC + 3% MBN (69.4 ± 3.6 μg/mL), and 3% MPC + 5% MBN (55.9 ± 1.6 μg/mL). In experiments against S. mutans and E. coli, addition of MPC and MBN resulted in significant antibacterial effects. In another experiment, the anti-demineralisation effect was improved when MPC was added, and when MBN was additionally added, it resulted in a synergetic effect. When MPC and MBN were added at an appropriate ratio to the orthodontic bonding agents, the protein-repellent, antibacterial, and anti-demineralisation effects were improved. This combination could thus be an alternative way of treating white spot lesions.
Highlights
Enamel demineralisation, referred to as white spot lesions (WSL), is the most frequent complication associated with fixed orthodontic treatments [1]
As reported in previous studies, 5% methacryloyloxyethyl phosphorylcholine (MPC) led to gelation, which reduced the mechanical properties and protein-repellent abilities of the bonding agents
MPC itself has protein-repellent and antibacterial effects, but these properties improved with the addition of mesoporous bioactive glass nanoparticles (MBN)
Summary
Referred to as white spot lesions (WSL), is the most frequent complication associated with fixed orthodontic treatments [1]. WSL can be managed via the prevention of demineralisation and promotion of remineralisation of affected lesions, with a variety of methods, e.g., toothpastes, varnishes, mouth rinses, gels, or topical creams containing fluoride, casein phosphopeptide–amorphous calcium phosphate (CPP–ACP), and bioactive glass (BAG), having been reported in literature [9,10]. One of these formulations, BAG, is a bioactive material composed of CaO, Na2O, and P2O5 based on SiO2 matrix. The objectives of this study were to synthesise biofunctional orthodontic bonding agents via the mixing of MPC, that has antibacterial and protein-repellent capabilities, and MBN, which has remineralisation abilities, at various ratios, and to investigate the mechanical properties and protein adsorption, antibacterial, and anti-demineralisation abilities of the synthesised orthodontic bonding agents
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