Molecules (Oct 2022)

Fabrication of pH-Responsive Zn<sup>2+</sup>-Releasing Glass Particles for Smart Antibacterial Restoratives

  • Fan Deng,
  • Hirohiko Sakai,
  • Haruaki Kitagawa,
  • Tomoki Kohno,
  • Pasiree Thongthai,
  • Yuhan Liu,
  • Ranna Kitagawa,
  • Gabriela L. Abe,
  • Jun-ichi Sasaki,
  • Satoshi Imazato

DOI
https://doi.org/10.3390/molecules27217202
Journal volume & issue
Vol. 27, no. 21
p. 7202

Abstract

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The on-demand release of antibacterial components due to pH variations caused by acidogenic/cariogenic bacteria is a possible design for smart antibacterial restorative materials. This study aimed to fabricate pH-responsive Zn2+-releasing glass particles and evaluate their solubilities, ion-releasing characteristics, and antibacterial properties in vitro. Three kinds of silicate-based glass particles containing different molar ratios of Zn (PG-1: 25.3; PG-2: 34.6; PG-3: 42.7 mol%) were fabricated. Each particle was immersed in a pH-adjusted medium, and the solubility and concentration of the released ions were determined. To evaluate the antibacterial effect, Streptococcus mutans was cultured in the pH-adjusted medium in the presence of each particle, and the bacterial number was counted. The solubility and concentration of Zn2+ released in the medium increased with a decrease in medium pH. PG-3 with a greater content of Zn demonstrated higher concentrations of released Zn2+ compared with PG-1 and PG-2. PG-2 exhibited bactericidal effects at pH 5.1, whereas PG-3 demonstrated bactericidal effects at pH values of 5.1 and 6.1, indicating that PG-3 was effective at inhibiting S. mutans even under slightly acidic conditions. The glass particle with 42.7 mol% Zn may be useful for developing smart antibacterial restoratives that contribute to the prevention of diseases such as caries on root surfaces with lower acid resistance.

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