Effect of Potassium Iodide and Glutathione on Color Change and Remineralization Potential Induced by Silver Diamine Fluoride Application

Q4 Dentistry

Dentistry 3000 Pub Date : 2024-03-04 DOI:10.5195/d3000.2024.402

Salma Mohammed ElSabaa, Ahmed El Banna, Dina Ahmed El Refai

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Abstract

Purpose: To evaluate the effect of applying potassium-iodide (KI) and glutathione (GSH) on silver-diamine fluoride (SDF) induced tooth discoloration as well as their effect on its remineralization potential.Methods: To examine color change, cervical dentinal demineralized cavities were performed mesially and distally in 16 human premolars. Glass-ionomer restoration (GIC) was applied and allocated to four groups I-IV according to the following pre-treatments: No pre-treatment, SDF, SDF+KI, SDF+20%(wt) GSH. Spectrophotometric evaluation of samples at time intervals: 1,7 and 14 days of GIC application. To examine the effect of remineralization, 21 bovine dentin blocks were divided into groups I-III: SDF, SDF + KI, and SDF + GSH. Vickers microhardness was measured, before and after demineralization and after 7 days of treatment.Results: Spectrophotometric results after 14 days for groups I-IV were:1.29±0.18, 12.24±0.19, 2.19±0.32 and 4.76±0.19 respectively. Groups III and IV showed significant reduction in ΔE compared with group II, although they showed significant increase in ΔE compared with group I (p<0.001). KI showed better management of color changes than GSH. The microhardness test results after treatment application to demineralized dentin for Groups I-III were: 30.81±20.87, 30.59±16.42, 24.69±13.21, respectively. All groups showed significantly increased microhardness of demineralized dentin (P ≤ 0.05), which was comparable to that of Group I.Conclusion: Application of KI and GSH after SDF significantly minimized color changes without affecting the remineralizing effect of SDF.

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碘化钾和谷胱甘肽对二胺氟化银诱导的颜色变化和再矿化潜能的影响

目的：评估使用碘化钾（KI）和谷胱甘肽（GSH）对氟化银二胺（SDF）引起的牙齿变色的影响，以及它们对牙齿再矿化潜力的影响：为了研究颜色的变化，对 16 颗人类前臼齿的中远端进行了牙颈部脱矿龋洞研究。应用玻璃-离子体修复体（GIC），并根据以下预处理将其分为 I-IV 四组：无预处理、SDF、SDF+KI、SDF+20%（重量）GSH。在施用 GIC 1、7 和 14 天的时间间隔内对样品进行分光光度法评估。为了检测再矿化的效果，21 个牛牙本质块被分为 I-III 组：SDF、SDF + KI 和 SDF + GSH。在脱矿前后和治疗 7 天后测量维氏硬度：14 天后，I-IV 组的分光光度结果分别为：1.29±0.18、12.24±0.19、2.19±0.32 和 4.76±0.19。与 II 组相比，III 组和 IV 组的ΔE 显著减少，但与 I 组相比，III 组和 IV 组的ΔE 显著增加（P<0.001）。与 GSH 相比，KI 能更好地控制颜色变化。对脱矿牙本质进行处理后，I-III 组的显微硬度测试结果为分别为 30.81±20.87、30.59±16.42、24.69±13.21。各组脱矿牙本质显微硬度均有明显提高（P≤0.05），与 I 组相当：结论：在 SDF 后应用 KI 和 GSH 能明显减少颜色变化，且不影响 SDF 的再矿化效果。

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