Efficacy of different remineralization agents on microhardness and chemical composition of enamel white spot lesion

F1000Research Pub Date : 2024-05-17 DOI:10.12688/f1000research.149166.1

Rafal Ghanim Rahman, Ban Sahib Diab

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Abstract

Background White spot lesions (WSLs) are frequently linked with low microhardness and mineral content changes. several strategies have been employed to deal with these problems. This investigation aimed to analyze the microhardness and mineral content changes after remineralization with bioactive glass (BAG) and casein phospho-peptide-amorphous calcium phosphate with fluoride (CPP-ACPF). Methods Twenty sound maxillary first premolars extracted were used to obtain a total of one hundred enamel samples. forty enamel slabs were split into four experimental groups (n = 10 each): Group I, BAG; Group II, BAG+CPP-ACPF; Group III, CPP-ACPF varnish; and Group IV, artificial saliva (negative control). To create artificial WSLs, all samples were preserved in a prepared demineralizing agent for 72 h before treatment with remineralizing agents. Vickers microhardness test was performed. Additionally, 60 enamel samples were selected for analysis using energy dispersive spectroscopy (EDX) and assigned to six experimental groups; the first four groups were similar to that used in the microhardness test along with Group V: WSLs, and Group VI: baseline. The statistical analyses employed in this study included Tukey’s HSD (p<0.05), one-way ANOVA, and Shapiro-Wilk. Result Regarding surface microhardness, the BAG+CPP-ACPF group showed the most favorable recovery, which was better than the outcomes of the BAG and CPP-ACPF groups. A statistically significant change (p <0.05) was not observed between them. Similarly, for mineral content change, the BAG+CPP-ACPF group demonstrated the greatest result, The BAG group came next, and the CPP-ACPF group came last. Conclusion The BAG+CPP-ACPF group might be regarded as the best course of treatment for enhancing both the surface microhardness and mineral content (Ca, P), while the control group (Artificial saliva) showed the least satisfactory results in comparison. After demineralization, mineral content and microhardness decreased in all samples. Therefore, BAG+CPP-ACPF significantly improved the surface microhardness and mineral content.

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不同再矿化剂对釉质白斑病变微硬度和化学成分的功效

背景白斑病（WSL）经常与显微硬度低和矿物质含量变化有关。本研究旨在分析使用生物活性玻璃（BAG）和含氟酪蛋白磷酸肽-无定形磷酸钙（CPP-ACPF）进行再矿化后的显微硬度和矿物质含量变化。方法将提取的 20 颗上颌第一前磨牙共 100 片釉质样本分成四个实验组（每组 10 片）：第一组，BAG；第二组，BAG+CPP-ACPF；第三组，CPP-ACPF清漆；第四组，人工唾液（阴性对照）。为了制造人工 WSL，所有样本都在制备好的脱矿剂中保存 72 小时，然后再用再矿化剂处理。进行维氏硬度测试。此外，还选择了 60 个珐琅质样本进行能量色散光谱（EDX）分析，并将其分配到六个实验组中；前四组与微硬度测试中使用的组别相似，第五组：WSL，第六组：基线。本研究采用的统计分析包括 Tukey's HSD（P<0.05）、单因素方差分析和 Shapiro-Wilk。结果在表面微硬度方面，BAG+CPP-ACPF 组的恢复效果最好，优于 BAG 组和 CPP-ACPF 组。它们之间没有发现明显的统计学变化（P <0.05）。同样，在矿物质含量变化方面，BAG+CPP-ACPF 组的结果最好，BAG 组次之，CPP-ACPF 组最后。结论 BAG+CPP-ACPF 组可能被认为是提高表面微硬度和矿物质含量（钙、磷）的最佳治疗方案，而对照组（人工唾液）相比之下效果最不理想。脱矿后，所有样品的矿物质含量和显微硬度都有所下降。因此，BAG+CPP-ACPF 能显著提高表面显微硬度和矿物质含量。

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