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Impact of Photodynamic Therapy Based on Modified Orthodontic Self-Cured Acrylic Resin Containing Titanium Dioxide Nanoparticles Against Candida Albicans Publisher Pubmed



Bahrami R1 ; Jafarzadeh A2 ; Pourhajibagher M3 ; Hemmati YB2 ; Bahador A4
Authors

Source: Photodiagnosis and Photodynamic Therapy Published:2025


Abstract

Background: This in vitro study was conducted to evaluate the impact of photodynamic therapy (PDT) using modified acrylic resin with titanium dioxide nanoparticles (TiO2NPs) on Candida albicans biofilm, physico-mechanical properties, and pro-inflammatory gene expression. Materials and Methods: The biofilm inhibition test was used to assess the antimicrobial effectiveness against C. albicans biofilm. The levels of gene expression for TNF-α and IL-6 in human gingival fibroblast (HGF) cell line were examined using quantitative real-time polymerase chain reaction (qRT-PCR). The roughness, flexural strength, and microhardness of modified acrylic resin with different concentrations of TiO2NPs (0 %, 1 %, 2 %, and 3 %) were measured using a profilometer, a universal testing machine, and a digital hardness tester, respectively. Results: The C. albicans biofilm was most effectively reduced by 0.2 % chlorhexidine (CHX), showing the lowest colony count (5.94 ± 0.46 × 106 CFU/mL). Comparable results were observed with 3 % TiO2NPs-PDT (7.37 ± 1.34 × 106 CFU/mL, P = 0.300). The colony counts from 2 % TiO2NPs-PDT (9.21 ± 1.25 × 106 CFU/mL) was not significantly different from 3 % TiO2NPs-PDT (P = 0.529) but was notably higher than that of 0.2 % CHX (P = 0.004). The expression of TNF-α and IL-6 genes decreased significantly in HGF cell line when exposed to 2 % and 3 % TiO2NPs-PDT. Microhardness and flexural strength demonstrated a direct correlation with the concentration of TiO2NPs, while roughness showed an inverse correlation. Additionally, all groups exceeded the ISO standards for flexural strength. Conclusion: 3 % TiO2NPs-PDT reduced C. albicans biofilm and downregulated the pro-inflammatory gene expression without adversely affecting the properties of the acrylic resin, making it suitable for clinical use. © 2025 The Author(s)
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