Department of Prosthetic Dental Science, College of Dentistry, King Saud University, Riyadh Saudi Arabia.
Photodiagnosis Photodyn Ther. 2022 Sep;39:102874. doi: 10.1016/j.pdpdt.2022.102874. Epub 2022 Apr 23.
The present study aimed to evaluate the anticandidal effectiveness of PDT, DL, Triphala, CHX, and NE and their effects on Ra and the hardness of polyamide denture base colonized with C. Albicans.
A total of 50 thermo-injected polyamide denture resins were constructed and inoculated by the American Type Culture Collection (ATCC) of C. albicans in an in-vitro setup. The specimens were arbitrarily allocated into five groups, pre-candida count was measured then subjected to the diverse polyamide denture disinfection methodologies: Group 1: PDT, Group 2: Diode Laser, group 3: Triphala, group 4: 0.12% CHX (Control) and group 5 Neem extract. After disinfection protocol, post-candida count (CFU/ml) was assessed. Surface roughness and surface hardness of polyamide dentures were evaluated and statistical differences in the Ra and Vickers hardness was also assessed. Statistical analysis was performed for CFU/mL (log10) for exposed C. albicans by two-way ANOVA and Tukey's multiple test (p>0.05). For normality of the data, Kolmogorov Smirnov test was executed.
The highest anti-microbial efficacy against Candida colonies was displayed by chemical control group 0.12% CHX (11.39 ± 1.8 CFU/ml). This was comparable to herbal NE (12.45 ± 2.9 CFU/ml) (p>0.05). There was no statistical difference found in the surface hardness values among the disinfected groups. Group 2: DL (1.32 ± 0.13 μm) showed the highest Ra value comparable to group 1: PDT (1.21 ± 0.22 μm) CONCLUSION: Polyamide denture base colonized with C. Albicans and disinfected with 0.12% Chlorhexidine and Neem extract demonstrated the highest antimicrobial efficacy with decreased surface roughness and no alteration in denture hardness.
本研究旨在评估 PDT、DL、Triphala、CHX 和 NE 的抗真菌效果及其对 Ra 和被 C. Albicans 定植的聚酰胺义齿基底硬度的影响。
共构建了 50 个热注入聚酰胺义齿树脂,并在体外设置中使用美国典型培养物保藏中心(ATCC)的 C. albicans 进行接种。将标本随机分为五组,测量预念珠菌计数,然后进行不同的聚酰胺义齿消毒方法:第 1 组:PDT,第 2 组:二极管激光,第 3 组:Triphala,第 4 组:0.12% CHX(对照)和第 5 组:Neem 提取物。消毒方案后,评估后念珠菌计数(CFU/ml)。评估聚酰胺义齿的表面粗糙度和表面硬度,并评估 Ra 和维氏硬度的统计差异。通过双向 ANOVA 和 Tukey 多重检验(p>0.05)对暴露于 C. albicans 的 CFU/ml(log10)进行统计分析。为了检查数据的正态性,执行了 Kolmogorov Smirnov 检验。
对念珠菌菌落显示出最高抗菌效果的是化学对照组 0.12% CHX(11.39±1.8 CFU/ml)。这与草药 NE(12.45±2.9 CFU/ml)相当(p>0.05)。在消毒组之间,表面硬度值没有发现统计学差异。第 2 组:DL(1.32±0.13μm)显示出最高的 Ra 值,与第 1 组:PDT(1.21±0.22μm)相当。
用 0.12%洗必泰(Chlorhexidine)和印楝提取物消毒被 C. Albicans 定植的聚酰胺义齿基底显示出最高的抗菌效果,同时表面粗糙度降低,义齿硬度没有改变。
