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Developing a New Generation of Antimicrobial and Bioactive Dental Resins

Dental caries is prevalent, and secondary caries causes restoration failures. This article reviews recent studies on developing a new generation of bioactive resins with anticaries properties. Extensive effects were made to develop new antimicrobial composites, bonding agents, and other resins conta...

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Published in:	Journal of dental research 2017-07, Vol.96 (8), p.855-863
Main Authors:	Cheng, L., Zhang, K., Zhang, N., Melo, M.A.S., Weir, M.D., Zhou, X.D., Bai, Y.X., Reynolds, M.A., Xu, H.H.K.
Format:	Article
Language:	English
Subjects:	Acid production Aging Ammonium Anti-Infective Agents - pharmacology Antimicrobial agents Apoptosis Bacteria Biocompatibility Biocompatible Materials - pharmacology Biofilms Biofilms - drug effects Bond strength Calcium phosphates Calcium Phosphates - pharmacology Cariostatic Agents - pharmacology Chlorhexidine Chlorhexidine - pharmacology Composite materials Cooperation Cytotoxicity Dental caries Dental Caries - microbiology Dental Caries - prevention & control Dental Plaque - microbiology Dental Plaque - prevention & control Dental restorative materials Dentistry Drug resistance Enzymes Humans Membranes Methacrylates - pharmacology Nanoparticles Quaternary Ammonium Compounds - pharmacology Remineralization Resins Resins, Synthetic - pharmacology Reviews Silver Studies
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description	Dental caries is prevalent, and secondary caries causes restoration failures. This article reviews recent studies on developing a new generation of bioactive resins with anticaries properties. Extensive effects were made to develop new antimicrobial composites, bonding agents, and other resins containing quaternary ammonium methacrylates to suppress plaque buildup and bacterial acid production. The effects of alkyl chain length and charge density and the antimicrobial mechanisms for chlorhexidine, nano-silver, quaternary ammonium methacrylates, and protein-repellent agents were discussed. Synergistic effects of contact-killing and protein-repellent properties were shown to yield the greatest biofilm-inhibition effects. The combination of antimicrobial, protein-repellent, and calcium phosphate nanoparticle remineralization was suggested to provide maximal anticaries effects. In addition, for use orally, cytotoxicity and biocompatibility were important considerations for the new bioactive materials. Furthermore, rather than kill all bacteria, it would be more desirable to modulate the oral biofilm compositions via bioactive resins to suppress cariogenic/pathogenic species and promote benign species. For widespread clinical use of the new antimicrobial and therapeutic materials, whether they would induce bacterial drug resistance needs to be determined, which requires further study. Nonetheless, the new generation of bioactive anticaries resins with therapeutic and biofilm acid-inhibiting properties has the potential to substantially benefit oral health.
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This article reviews recent studies on developing a new generation of bioactive resins with anticaries properties. Extensive effects were made to develop new antimicrobial composites, bonding agents, and other resins containing quaternary ammonium methacrylates to suppress plaque buildup and bacterial acid production. The effects of alkyl chain length and charge density and the antimicrobial mechanisms for chlorhexidine, nano-silver, quaternary ammonium methacrylates, and protein-repellent agents were discussed. Synergistic effects of contact-killing and protein-repellent properties were shown to yield the greatest biofilm-inhibition effects. The combination of antimicrobial, protein-repellent, and calcium phosphate nanoparticle remineralization was suggested to provide maximal anticaries effects. In addition, for use orally, cytotoxicity and biocompatibility were important considerations for the new bioactive materials. Furthermore, rather than kill all bacteria, it would be more desirable to modulate the oral biofilm compositions via bioactive resins to suppress cariogenic/pathogenic species and promote benign species. For widespread clinical use of the new antimicrobial and therapeutic materials, whether they would induce bacterial drug resistance needs to be determined, which requires further study. 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Furthermore, rather than kill all bacteria, it would be more desirable to modulate the oral biofilm compositions via bioactive resins to suppress cariogenic/pathogenic species and promote benign species. For widespread clinical use of the new antimicrobial and therapeutic materials, whether they would induce bacterial drug resistance needs to be determined, which requires further study. 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Furthermore, rather than kill all bacteria, it would be more desirable to modulate the oral biofilm compositions via bioactive resins to suppress cariogenic/pathogenic species and promote benign species. For widespread clinical use of the new antimicrobial and therapeutic materials, whether they would induce bacterial drug resistance needs to be determined, which requires further study. Nonetheless, the new generation of bioactive anticaries resins with therapeutic and biofilm acid-inhibiting properties has the potential to substantially benefit oral health.</abstract><cop>Los Angeles, CA</cop><pub>SAGE Publications</pub><pmid>28530844</pmid><doi>10.1177/0022034517709739</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	Acid production Aging Ammonium Anti-Infective Agents - pharmacology Antimicrobial agents Apoptosis Bacteria Biocompatibility Biocompatible Materials - pharmacology Biofilms Biofilms - drug effects Bond strength Calcium phosphates Calcium Phosphates - pharmacology Cariostatic Agents - pharmacology Chlorhexidine Chlorhexidine - pharmacology Composite materials Cooperation Cytotoxicity Dental caries Dental Caries - microbiology Dental Caries - prevention & control Dental Plaque - microbiology Dental Plaque - prevention & control Dental restorative materials Dentistry Drug resistance Enzymes Humans Membranes Methacrylates - pharmacology Nanoparticles Quaternary Ammonium Compounds - pharmacology Remineralization Resins Resins, Synthetic - pharmacology Reviews Silver Studies
title	Developing a New Generation of Antimicrobial and Bioactive Dental Resins
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