THE REMINERALIZING POTENTIAL OF NATURAL DRUG LOADED NIOSOME VERSUS ITS EXTRACT ON DEMINERALIZED ENAMEL

Egyptian dental journal Pub Date : 2024-07-01 DOI:10.21608/edj.2024.288701.3036

Ahmed Adel Abdelaziz, Heba fathy Elemam, Ahmed Hamdy Abdu

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Abstract

Objectives: This in-vitro study was designed to evaluate the remineralizing potential of (Peganum harmala) as a natural plant, niosome loaded harmala extract versus sodium fluoride on demineralized enamel surface. Materials and methods: A 90 caries-free upper first premolar teeth were collected. The specimens were cut 2 mm in a horizontal plane, sectioning of the coronal part into two halves resulting in 180 specimens. Then, embedded in acrylic blocks. Specimens were then immersed in demineralizing solution of 0.3% citric acid for 8 hours to produce artificial caries-like lesions. The specimens randomly divided into five groups: group (A) Peganum harmala extract , group (B) niosome loaded harmala, group (C) sodium fluoride, group (D) positive control, group (E) a negative control. Two concentration groups (5% and 10%), two different time (20 days and 40 days). Specimens of each group were examined for microhardness measurement, data was then recorded, statistically analyzed using analysis of variance (ANOVA). Also, specimens were examined using scanning electron microscopy (SEM). Energy Dispersive X-ray analysis (EDX). Results: 10% concentrations appeared more effective than the 5% in all tested groups. The median hardness for 10% harmala was 176.4.6 in 40 days compared to 151.6 for 5% harmala. Also, niosome 10% showed the highest median microhardness overall (243.6 in 40 days). Also, there was an increase in microhardness values from 20 to 40 days for all preparations. SEM results and EDXA analysis confirmed these observations. Conclusions: P. harmala plant extract and niosome loaded harmala enhanced the remineralization potential of demineralized enamel surface.

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含天然药物的尼欧司及其提取物对脱矿珐琅质的再矿化潜力

研究目的：本体外研究旨在评估天然植物牛膝（Peganum harmala）、含牛膝提取物的牛膝提取物与氟化钠对脱矿珐琅质表面的再矿化潜力。材料与方法收集 90 颗无龋的上第一前磨牙。将标本在水平面上切割 2 毫米，将冠状部分切成两半，得到 180 个标本。然后嵌入丙烯酸树脂块中。然后将标本浸泡在 0.3% 柠檬酸脱矿物质溶液中 8 小时，以产生人工龋齿样病变。标本随机分为五组：组（A）牛膝提取物，组（B）含牛膝的药丸，组（C）氟化钠，组（D）阳性对照，组（E）阴性对照。两个浓度组（5% 和 10%），两个不同时间组（20 天和 40 天）。对每组的试样进行显微硬度测量，然后记录数据，使用方差分析（ANOVA）进行统计分析。此外，还使用扫描电子显微镜（SEM）对试样进行了检查。能量色散 X 射线分析（EDX）。结果显示在所有测试组中，10% 的浓度似乎比 5%的浓度更有效。在 40 天内，10% harmala 的硬度中值为 176.4.6，而 5% harmala 的硬度中值为 151.6。此外，10% 的 niosome 在 40 天内显示出最高的微硬度中值（243.6）。此外，从 20 天到 40 天，所有制剂的显微硬度值都有所增加。SEM 结果和 EDXA 分析证实了这些观察结果。结论害羞草植物提取物和含害羞草的niosome增强了脱矿化珐琅质表面的再矿化潜力。

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Egyptian dental journal

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