Investigating the antibacterial activity of Thyme Oil/TiO2 modified resins against oral pathogenic bacteria
Songlin Zhou, Chao Deng, Hai Liu, Yi Sun, Jue Zhang
Abstract
Dental composites lack inherent antimicrobial activity, leading to secondary caries and restoration failure. This study developed a novel thyme oil/TiO2 nanoparticle filler to impart sustainable antibacterial functions to dental resins. TiO2 nanoparticles were synthesized via a sol-gel method and characterized as 20–30 nm crystalline anatase particles. Functionalization with thyme oil was confirmed by FTIR, with 5.8% thyme oil content measured by TGA. Resin disks containing 0.5–2 wt% thyme-TiO2 exhibited significant inhibition zones against S. mutans, L. acidophilus and C. albicans (8–12 mm) compared to thyme oil-free controls (0 mm) (p < 0.05). Thyme-TiO2 at 1–2 wt% showed sustained release of thyme oil over 15 days with bacterial viability reduction of 68–99% compared to unmodified resin (p < 0.05). Resin-dentin microtensile bond strengths were 45–50 MPa for 0.5–2 wt% thyme-TiO2 and not significantly different from control (p > 0.05). Likewise, flexural strength, elastic modulus and surface microhardness values were unchanged with thyme-TiO2 incorporation ≤ 2 wt% (p > 0.05). DPSC viability was > 90% for all resins, indicating good cytocompatibility. Overall, the thyme-TiO2 nanocomposite successfully endowed the dental resin with potent, long-lasting antibacterial effects without compromising key mechanical properties.