Biomaterials Department, Faculty of Dentistry, Badr University in Cairo, Cairo, Egypt.
Biomaterials Department, Faculty of Dentistry, Ain-Shams University, Cairo, Egypt.
J Mech Behav Biomed Mater. 2023 Feb;138:105551. doi: 10.1016/j.jmbbm.2022.105551. Epub 2022 Nov 14.
The purpose of this study was to evaluate the effect of using natural cross-linkers as sumac and curcumin on the durability of the resin-dentin bond and stiffness of demineralized dentin matrix.
Thirty sound molars were divided into 5 groups: Control (CO), Grape Seed extract (GSE), Cacao seed extract (CSE), Sumac extract (SE) and Curcumin extract (CE). The teeth had their coronal dentin exposed, etched, and pre-treated for 1 min with the extracts. Teeth were then bonded using Single-Bond II adhesive and 4 mm composite was built up on dentin surface. Teeth were sectioned into 1 × 1 × 8mm beams and their micro-tensile bond strength (μTBS) was tested after 24 h and 6 months of water storage. For stiffness testing, 15 teeth were sectioned to obtain dentin beams (1 × 1 × 6.5 mm), the beams were demineralized in 10% phosphoric acid then rinsed and divided into 5 groups. Beams were then immersed in their respective extract solution for 1 min after which they were subjected to a 3- point loading test using a universal testing machine to calculate their modulus of elasticity.
After 24 h, no significant difference in μTBS was shown between all groups. After 6 Months, GSE, CE, and SE showed significantly higher μTBS compared to CO (p ≥ 0.05). For the modulus of elasticity; only GSE showed a significantly higher modulus compared to other groups.
The application of grape seed extract, curcumin and sumac extract as dentin pre-treatments appear to be a promising approach to enhance the durability of the resin-dentin bond in a clinically relevant application time.
本研究旨在评估使用天然交联剂如漆树和姜黄素对树脂-牙本质粘结耐久性和脱矿牙本质基质硬度的影响。
30 颗健康磨牙分为 5 组:对照组(CO)、葡萄籽提取物(GSE)、可可豆提取物(CSE)、漆树提取物(SE)和姜黄素提取物(CE)。牙齿的冠部牙本质暴露,酸蚀,并用提取物预处理 1 分钟。然后用 Single-Bond II 粘合剂粘结牙齿,在牙本质表面构建 4mm 复合树脂。将牙齿切成 1×1×8mm 的梁,在 24 小时和 6 个月水储存后测试其微拉伸粘结强度(μTBS)。为了进行硬度测试,将 15 颗牙齿切成获得牙本质梁(1×1×6.5mm),将梁在 10%磷酸中脱矿,然后冲洗并分为 5 组。然后将梁在各自的提取物溶液中浸泡 1 分钟,然后用万能试验机进行三点加载测试,计算其弹性模量。
24 小时后,所有组之间的 μTBS 无显著差异。6 个月后,GSE、CE 和 SE 与 CO 相比,μTBS 显著更高(p≥0.05)。对于弹性模量;只有 GSE 与其他组相比表现出显著更高的模量。
葡萄种子提取物、姜黄素和漆树提取物作为牙本质预处理剂的应用似乎是一种有前途的方法,可以在临床相关的应用时间内增强树脂-牙本质粘结的耐久性。
