氯己定修饰纳米管及其对牙科胶粘剂聚合和粘结性能的影响。
Chlorhexidine-modified nanotubes and their effects on the polymerization and bonding performance of a dental adhesive.
机构信息
Department of Cariology, Operative Dentistry & Dental Public Health, Indiana University School of Dentistry (IUSD), Indianapolis, IN, USA; Department of Restorative Dental Sciences, College of Dentistry, King Saud bin Abdulaziz University for Health Sciences, Riyadh, Saudi Arabia.
Department of Biomedical and Applied Sciences, Division of Dental Biomaterials, IUSD, Indianapolis, IN, USA.
出版信息
Dent Mater. 2020 May;36(5):687-697. doi: 10.1016/j.dental.2020.03.007. Epub 2020 Mar 30.
OBJECTIVES
The purpose of this study was to synthesize chlorhexidine (CHX)-encapsulated aluminosilicate clay nanotubes (Halloysite®, HNTs) and to incorporate them into the primer/adhesive components of an etch-and-rinse adhesive system (SBMP; Scotchbond Multipurpose, 3M ESPE) and to test their effects on degree of conversion, viscosity, immediate and long-term bonding to dentin.
METHODS
CHX-modified HNTs were synthesized using 10% or 20% CHX solutions. The primer and the adhesive components of SBMP were incorporated with 15wt.% of the CHX-encapsulated HNTs. Degree of conversion (DC) and viscosity analyses were performed to characterize the modified primers/adhesives. For bond strength testing, acid-etched dentin was treated with one of the following: SBMP (control); 0.2%CHX solution before SBMP; CHX-modified primers+SBMP adhesive; SBMP primer+CHX-modified adhesives; and SBMP primer+CHX-free HNT-modified adhesive. The microtensile bond strength test was performed after immediate (24h) and long-term (6 months) of water storage. Data were analyzed using ANOVA and Tukey (α=5%) and the Weibull analysis.
RESULTS
DC was greater for the CHX-free HNT-modified adhesive, whereas the other experimental adhesives showed similar DC as compared with the control. Primers were less viscous than the adhesives, without significant differences within the respective materials. At 24h, all groups showed similar bonding performance and structural reliability; whereas at the 6-month period, groups treated with the 0.2%CHX solution prior bonding or with the CHX-modified primers resulted in greater bond strength than the control and superior reliability.
SIGNIFICANCE
The modification of a primer or adhesive with CHX-encapsulated HNTs was an advantageous approach that did not impair the polymerization, viscosity and bonding performance of the materials, showing a promising long-term effect on resin-dentin bonds.
目的
本研究旨在合成载氯己定(CHX)的水铝硅石纳米管(埃洛石,HNTs),并将其纳入自酸蚀粘接剂系统(SBMP; Scotchbond Multipurpose,3M ESPE)的底漆/粘接剂成分中,并测试其对转化率、粘度、即刻和长期对牙本质的粘接效果。
方法
采用 10%或 20%CHX 溶液合成 CHX 修饰的 HNTs。将 SBMP 的底漆和粘接剂成分与 15wt.%的载 CHX 的 HNTs 混合。通过转化率(DC)和粘度分析来表征改性的底漆/粘接剂。为了进行粘接强度测试,将酸蚀牙本质用以下方法处理之一:SBMP(对照);SBMP 前用 0.2%CHX 溶液处理;CHX 修饰的底漆+SBMP 粘接剂;SBMP 底漆+CHX 修饰的粘接剂;SBMP 底漆+无 CHX 的 HNT 修饰的粘接剂。即刻(24 小时)和长期(6 个月)水储存后进行微拉伸粘接强度测试。采用方差分析和 Tukey(α=5%)和威布尔分析进行数据处理。
结果
无 CHX 的 HNT 修饰的粘接剂的 DC 较高,而其他实验性粘接剂的 DC 与对照相似。与粘接剂相比,底漆的粘性较小,但在各自的材料中没有显著差异。在 24 小时时,所有组均显示出相似的粘接性能和结构可靠性;而在 6 个月时,与粘接前用 0.2%CHX 溶液处理或用 CHX 修饰的底漆处理的组的粘接强度大于对照组,且可靠性更高。
意义
用载 CHX 的 HNTs 修饰底漆或粘接剂是一种有利的方法,不会损害材料的聚合、粘度和粘接性能,对树脂-牙本质粘接具有有前景的长期效果。
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