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Day, D.E., White, J.E., Brown, R.E. and McMenamin, K.D. (2003) Transformation of Borate Glasses into Biologically Useful Materials. Glass Technology, 44, 75-81.

has been cited by the following article:

  • TITLE: Broad-Spectrum Antibacterial Characteristics of Four Novel Borate-Based Bioactive Glasses

    AUTHORS: Megan Ottomeyer, Ali Mohammadkah, Delbert Day, David Westenberg

    KEYWORDS: Bioactive Glass, Antibacterial Properties, Metal Ions

    JOURNAL NAME: Advances in Microbiology, Vol.6 No.10, September 6, 2016

    ABSTRACT: Bioactive glasses have been developed for medical applications in the body for bone and tissue repair and regeneration. We have developed a borate-containing bioactive glass (13-93B3, referred to as B3), which is undergoing clinical trials to assess its wound-healing properties. To complement the healing properties of B3, metal ion dopants have been added to enhance its antimicrobial properties. Bioactive glasses doped with silver, gallium or iodine ions were found to have broad spectrum antimicrobial effects on clinically relevant bacteria including MRSA. While the B3 glass alone was sufficient to produce antibacterial effects on select bacteria, adding dopants enhanced the broad-spectrum antibacterial properties: Live-Dead staining fluorescence microscopy suggests cell membrane integrity is disrupted in gram positive bacteria exposed to the glass compounds, but not gram negative bacteria, indicating multiple mechanisms of action for each glass formulation.