光活化玫瑰红掺杂 TiO2 纳米粒子改性第五代粘合剂对链球菌突变体存活率和牙色修复材料对龋坏牙本质机械性能的影响。

IF 2 3区 工程技术 Q2 ANATOMY & MORPHOLOGY
Amer M Alanazi, Azmat Ali Khan, Yusra Tus Saleha Siddiqui, Manisha Jagdesh Leemani, Tooba Shabbir, Sadia Ali
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引用次数: 0

摘要

评估使用不同浓度(2% 和 5%)的光活化 0.5% 玫瑰红(RB)和光活化 RB 掺杂二氧化钛纳米粒子(TiO2NPs)改性的第五代粘合剂的抗菌性、微拉伸粘接强度(μTBS)和转换度(DC),并与粘接在龋坏牙本质(CAD)上的未改性粘合剂进行比较。根据国际龋病检测和评估系统 (ICDAS) 的评分,40 颗下颌磨牙的龋坏发展到牙本质的中三分之一,评分为 4 分和 5 分。根据蚀刻和冲洗粘合剂(ERA)改性情况将样本分为四组:第一组:未改性ERA;第二组:光活化0.5% RB光敏剂(PS)改性ERA;第三组:光活化RB掺杂2 wt% TiO2NPs粘合剂;第四组:光活化RB掺杂5 wt% TiO2NPs粘合剂。然后在 CAD 表面进行粘接和复合修复。对所有试样进行热循环,并评估 μTBS 和失效模式分析。测试了 RB 和掺杂 RB 的 TiO2NPs(2% 和 5%)在使用可见光激活后对变异链球菌(S.mutans)的抗菌效力。采用 Kruskal-Wallis 检验评估了变异链球菌的存活率。μTBS的分析采用方差分析,然后进行事后Tukey诚实显著差异(HSD)多重比较检验。第 1 组(未改良ERA)(0.52 ± 0.31 CFU/mL)处理过的样品显示出最高的细菌存活率和最低的μTBS(11.32 ± 0.63 MPa)。然而,第 4 组:光活化的 RB 掺杂 5 wt% TiO2NPs 粘合剂显示出最低的 S.mutans 存活率(0.11 ± 0.02 CFU/mL)和最高的粘接强度(18.76 ± 1.45 MPa)。光活化的 RB 掺杂 2 wt% TiO2NPs 粘合剂在 μTBS 和对变异杆菌的抗菌效果方面都表现出良好的增强效果。但值得注意的是,这种改性会导致粘合剂的直流电降低。研究亮点:未经改性的ERA处理样品具有最高的细菌存活率和最低的μTBS。光活化的 RB 掺杂 5 wt% TiO2NPs 粘合剂显示出最低的细菌存活率和最高的粘接强度。随着二氧化钛浓度的增加,直流电降低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Photoactivated rose bengal-doped TiO2 nanoparticles modified fifth-generation adhesive on the survival rate of Streptococcus mutants and mechanical properties of tooth-colored restorative material to carious dentin.

Assessment of the antimicrobial, micro tensile bond strength (μTBS), and degree of conversion (DC) of fifth-generation adhesive modified using photoactivated 0.5% rose bengal (RB) and photoactivated RB-doped titanium dioxide nanoparticles (TiO2NPs) in different concentrations (2% and 5%) as compared with the unmodified adhesive bonded to the carious affected dentin (CAD). Forty mandibular molars with caries progression up to the middle third of the dentin, as per the International Caries Detection and Assessment System (ICDAS) score of 4 and 5 were included. Specimens were divided into four groups based on etch and rinse adhesive (ERA) modification group 1: unmodified ERA, group 2: photoactivated 0.5% RB photosensitizer (PS) modified ERA, group 3: photoactivated RB-doped 2 wt% TiO2NPs adhesive, group 4: photoactivated RB-doped 5 wt% TiO2NPs adhesive. Followed by adhesive and composite restoration on the CAD surface. All the specimens were thermocycled and an assessment of μTBS and failure pattern analysis was performed. The antibacterial potency of RB and RB-doped TiO2NPs (2% and 5%) followed by their activation using visible light against Streptococcus mutans (S.mutans) were tested. The survival rate of S.mutans was assessed using the Kruskal-Wallis test. The analysis of μTBS involved the use of ANOVA, followed by a post-hoc Tukey honestly significant difference (HSD) multiple comparisons test. Group 1 (Unmodified ERA) (0.52 ± 0.31 CFU/mL) treated samples unveiled the highest means of bacterial survival and lowest μTBS (11.32 ± 0.63 MPa). Nevertheless, group 4: photoactivated RB-doped 5 wt% TiO2NPs adhesive displayed the lowest outcomes of S.mutans survival (0.11 ± 0.02 CFU/mL) and highest bond strength (18.76 ± 1.45 MPa). The photoactivated RB-doped 2 wt% TiO2NPs in adhesive demonstrated promising enhancements in both μTBS and antibacterial efficacy against S.mutans. However, it is noteworthy that this modification led to a decrease in the DC of the adhesive. RESEARCH HIGHLIGHTS: Unmodified ERA-treated samples unveiled the highest bacterial survival and the lowest μTBS. Photoactivated RB-doped 5 wt% TiO2NPs adhesive displayed the lowest S.mutans survival rate and highest bond strength. DC decreased with an increase in concentration of TiO2.

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来源期刊
Microscopy Research and Technique
Microscopy Research and Technique 医学-解剖学与形态学
CiteScore
5.30
自引率
20.00%
发文量
233
审稿时长
4.7 months
期刊介绍: Microscopy Research and Technique (MRT) publishes articles on all aspects of advanced microscopy original architecture and methodologies with applications in the biological, clinical, chemical, and materials sciences. Original basic and applied research as well as technical papers dealing with the various subsets of microscopy are encouraged. MRT is the right form for those developing new microscopy methods or using the microscope to answer key questions in basic and applied research.
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