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During implant surgery, microbial contamination of implants is a major issue that must be addressed to avoid acute and chronic post-surgery infection that may result in acute inflammation, a lengthy healing period, and surgical failure. Bacteria and other microbes use reactive oxygen species (ROS) to send signals between microbes for their proliferation and propagation. Therefore, we developed a functional bone substitute comprised of a ceramic scaffold (Calcium-deficient hydroxyapatite, CDHA) and immobilized gold nanoparticles (Au-scaffold) to scavenge microbial ROS and suppress microbial proliferation at early stages. The Au-scaffold can selectively scavenge H2O2 and ∙O2•-, and consequently, effectively inhibit the growth of Micrococcus luteus (M. luteus). In terms of antimicrobial activity, the minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of the Au-scaffold against M. luteus are comparable to commercial antibiotics (e.g., ceftriaxone, ampicillin, streptomycin, gentamycin, and tetracycline). The Au-scaffold also shows higher cell viability than the commercial antibiotics. Thus, with its antimicrobial activity and low toxicity, the developed Au-scaffold has promising potential antibacterial activity against one of the major post-surgical infection bacteria, Micrococcus luteus. |
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