Abstract
Secondary caries often occurs at the tooth-composite margins. This study developed a novel bioactive composite containing DMAHDM (dimethylaminohexadecyl methacrylate) and NACP (nanoparticles of amorphous calcium phosphate), inhibiting caries at the enamel restoration margins in an in vitro saliva-derived biofilm secondary caries model for the first time. Four composites were tested: (1) Heliomolar nanocomposite, (2) 0% DMAHDM + 0% NACP, (3) 3% DMAHDM + 0% NACP, (D) 3% DMAHDM + 30% NACP. Saliva-derived biofilms were tested for antibacterial effects of the composites. Bovine enamel restorations were cultured with biofilms, Ca and P ion release of nanocomposite and enamel hardness at the enamel restoration margins was measured. Incorporation of DMAHDM and NACP into composite did not affect the mechanical properties (p > 0.05). The biofilms’ CFU (colony-forming units) were reduced by 2 logs via DMAHDM (p < 0.05). Ca and P ion release of the nanocomposite was increased at cariogenic low pH. Enamel hardness at the margins for DMAHDM group was 25% higher than control (p < 0.05). With DMAHDM + NACP, the enamel hardness was the greatest and about 50% higher than control (p < 0.05). Therefore, the novel composite containing DMAHDM and NACP was strongly antibacterial and inhibited enamel demineralization, resulting in enamel hardness at the margins under biofilms that approached the hardness of healthy enamel.
Highlights
Dental composites are increasingly popular for restoring carious teeth due to their excellent aesthetics
CCoommppaarreedd ttoo commmmeerrcciiaall connttrrooll and 0DMAHDMM ++00NNAACCPP, the incorporatiioonn of 3% dimethylaminohexadecyl methacrylate (DMAHDM) and 30% nanoparticles of amorphous calcium phosphate (NACP) had no adverse effffect on flflexural strengthh and elastic modulus (p >> 00..0055))
These results demonstrate that 3DMAHDM + 0NACP and 3DMAHDM + 30NACP composite diminished the cariogenic abilities of the saliva-derived biofilms
Summary
Dental composites are increasingly popular for restoring carious teeth due to their excellent aesthetics. Previous studies developed 12-methacryloyloxydodecylpyridinium bromide (MDPB), quaternary ammonium polyethylenimine (QPEI) nanoparticles, quaternary ammonium methacryloxy siliane molecule (QAMS; C44H90ClNO18Si5), methacryloxylethyl cetyl dimethyl ammonium chloride (DMAE-CB), 2-dimethyl-2-dodecyl-1-methacryloxyethyl ammonium iodine (DDMAI) and novel quaternary ammonium dimethacrylate monomers (IQM) [11,12,13,14,15,16] These antibacterial agents were incorporated into dental resins with potent and broad-spectrum antibacterial effects [11,12,13,14,15,16]. Resins containing a new antibacterial monomer, dimethylaminohexadecyl methacrylate (DMAHDM), were proven to have a strong antibacterial activity [19,20] None of these previous studies investigated the ability of antibacterial composites to combat enamel demineralization around the restorations under biofilm acid attacks
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