Abstract
Bacteria in the oral cavity are responsible for the development of dental diseases such as caries and periodontitis, but it is becoming increasingly clear that the oral microbiome also benefits human health. Many oral care products on the market are antimicrobial, killing a large part of the oral microbiome but without removing the disease-causing biofilm. Instead, non-biocidal matrix-degrading enzymes may be used to selectively remove biofilm without harming the overall microbiome.The challenge of using enzymes to degrade biofilms is to match the narrow specificity of enzymes with the large structural diversity of extracellular polymeric substances that hold the biofilm together. In this study, we therefore perform a large-scale screening of single and multi-enzyme formulations to identify combinations of enzymes that most effectively remove dental biofilm.We tested >400 different treatment modalities using 44 different enzymes in combinations with up to six enzymes in each formulation, on in vitro biofilms inoculated with human saliva. Mutanase was the only enzyme capable of removing biofilm on its own. Multi-enzyme formulations removed up to 69 % of the biofilm volume, and the most effective formulations all contained mutanase. We shortlisted 10 enzyme formulations to investigate their efficacy against biofilms formed on glass slabs on dental splints worn by 9 different test subjects. Three of the ten formulations removed more than 50 % of the biofilm volume. If optimal enzyme concentration and exposure time can be reached in vivo, these enzyme combinations have potential to be used in novel non-biocidal oral care products for dental biofilm control.
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