Ion release dynamics of bioactive resin cement under variable pH conditions.

IF 3 Q1 DENTISTRY, ORAL SURGERY & MEDICINE

Frontiers in oral health Pub Date : 2025-03-12 eCollection Date: 2025-01-01 DOI:10.3389/froh.2025.1564838

Venkata Suresh Venkataiah, Jogikalmat Krithikadatta, Kavalipurapu Venkata Teja, Deepak Mehta, Mukesh Doble

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Abstract

Introduction: Understanding the ion release behaviour of bioactive resin cements is essential for evaluating their potential in restorative dentistry. Sustained ion release, especially at cariogenic pH levels, can enhance remineralization and prolong the longevity of dental restorations. This study investigates the influence of pH on the ion release profiles of a bioactive resin cement before and after recharging.

Methods: Disk-shaped specimens (n = 15) of bioactive resin cement were prepared and exposed to three different pH conditions (4.5, 5.5, and 6.5) to simulate normal and cariogenic environments. Calcium ion release was quantified using atomic spectrophotometry, while fluoride and phosphate ions were analyzed using quantitative spectrophotometry. After an initial 30-day depletion phase, recharging was performed using casein phosphopeptide-amorphous calcium phosphate with fluoride (CPP-ACPF) paste.

Results: In the pre-recharging phase (Stage 1), calcium ion release was more pronounced at acidic pH (4.5-5.5), particularly in the first five days. Fluoride and phosphate ions also demonstrated higher release at pH 4.5 and 5.5 compared to pH 6.5. Post-recharging (Stage 2) exhibited similar trends, emphasizing the role of regular recharge in sustaining ion availability. The absence of an initial burst release, commonly seen in other bioactive materials, suggests a distinct ion release mechanism in these resin cements.

Conclusion: The findings highlight the pH-dependent release characteristics of bioactive resin cements and reinforce the importance of recharging for maintaining their therapeutic potential. The unique release kinetics observed may offer advantages in long-term remineralization strategies for dental restorations.

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变pH条件下生物活性树脂水泥的离子释放动力学。

简介：了解生物活性树脂胶合剂的离子释放行为对于评估其在牙科修复中的潜力至关重要。持续的离子释放，特别是在致龋的pH水平，可以增强再矿化和延长牙齿修复的寿命。本研究考察了pH值对生物活性树脂水泥充电前后离子释放谱的影响。方法：制备生物活性树脂胶合剂的盘状标本（n = 15），并将其暴露于3种不同的pH条件下（4.5、5.5和6.5），以模拟正常和龋齿环境。用原子分光光度法测定钙离子释放量，用定量分光光度法测定氟化物和磷酸盐离子释放量。在最初的30天耗尽期后，使用酪蛋白磷酸肽-无定形磷酸钙加氟（CPP-ACPF）糊状物进行充电。结果：在预充电阶段（第1阶段），酸性pH（4.5-5.5）下钙离子释放更为明显，尤其是在前5天。氟化物和磷酸盐离子在pH为4.5和5.5时的释放量也高于pH为6.5时。后充电阶段（第二阶段）表现出类似的趋势，强调定期充电对维持离子可用性的作用。在其他生物活性材料中常见的初始爆裂释放的缺失，表明在这些树脂水泥中有一种独特的离子释放机制。结论：研究结果强调了生物活性树脂胶结物的ph依赖性释放特性，并强调了充电对维持其治疗潜力的重要性。观察到的独特释放动力学可能为牙科修复体的长期再矿化策略提供优势。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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