Immediate Effect of Biomimetic Agents on Caries-Affected Dentin Bond Strength

Gabriela de Alencar Pinto Magalhes, Rafael Rocha Pacheco, Regina Maria Puppi-Rontani
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Abstract

OBJECTIVE

The purpose of this study was to evaluate the effect of the P11-4 Self-Assembly Peptide and Dentin Matrix Protein 1 (DMP-1) on the microtensile bond strength (μTBS) to Caries-Affected Dentin (CAD) after 24h.

METHODS

Dentin slices were sectioned from 48 human third molars, randomly divided into six groups (n = 8): sound dentin [C+]; CAD [C]; CAD with DMP-1 [DMP-1] at 1μg/ml; CAD with P11-4 [P11-4] at 1 μg/ml; CAD with P11-4 [1P11-4] at 1mg/ml; and CAD with a combination of DMP-1 at 1 μg/ml and P11-4 at 0.5 μg/ml [DMP-1/P11-4]. Artificial caries lesions were created on the dentin surfaces of CAD groups (S.mutans, UA159). After selective caries removal, the respective treatments were applied. A 50μL dose of each biomineralization agent was used on the DAC for 5 minutes, and excess removed. Subsequently, 50μL of a supersaturated calcium and phosphate solution was added for 1 minute. The bonding steps followed manufacturer's guidelines (Adper™ Singlebond2, 3M™ Oral Care), and a resin composite layer was added. Specimens were kept in Simulated Body Fluid solution (SBF) for 24 hours at 37ÅãC, simulating pulpal pressure. Sectioned beams (1mm2) were submitted to μTBS test. Group comparisons utilized one-way ANOVA, Tukey post hoc tests, and Dunnett's test against control groups, with pre-set α = 0.05. Chi-square test was conducted on the failure pattern (CI = 95%).

RESULTS

C+ presented the highest μTBS values (p<0.05). 1P11-4 and the DMP-1/P11-4 exhibited significantly higher μTBS compared to C- (p<0.05). DMP-1 and P11-4 were similar to C- (p<0.05). The experimental groups showed a decrease in premature failure rates and an increase in mixed failure compared to C- (p < 0.001).

CONCLUSIONS

1P11-4 and DMP-1/ P11-4 enhanced bond strength to CAD, with 1P11-4 achieving approximately 60% of μ-TBS values of the C+. Biomimetic analogues improved immediate bond strength between adhesive/composite and CAD.

IMPLICATIONS

Minimally Invasive Dentistry advocates for selective caries removal, involving the removal of infected dentin, which is necrotic and unable to remineralize, while preserving the affected dentin at the bottom, which has the potential for remineralization. However, adhesion to affected dentin is often poor. In this study, biomimetic agents were used as a surface treatment to remineralize caries-affected dentin, aiming to improve immediate bond strength.

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生物仿生制剂对受龋齿影响的牙本质粘接强度的即时影响
目的本研究的目的是评估 P11-4 自组装肽和牙本质基质蛋白 1 (DMP-1) 在 24 小时后对受龋坏影响的牙本质 (CAD) 的微拉伸粘接强度 (μTBS)的影响。方法将 48 颗人类第三磨牙的牙本质切片随机分为六组(n = 8):健全牙本质[C+];CAD[C];含 1 μg/ml DMP-1 [DMP-1]的 CAD;含 1 μg/ml P11-4 [P11-4]的 CAD;含 1mg/ml P11-4 [1P11-4]的 CAD;以及含 1 μg/ml DMP-1 和 0.5 μg/ml P11-4 组合[DMP-1/P11-4]的 CAD。在 CAD 组的牙本质表面制造人工龋损(S.mutans、UA159)。选择性去除龋齿后,进行相应的处理。每种生物矿化剂的剂量为 50μL ,在 DAC 上使用 5 分钟,然后去除多余部分。随后,加入 50μL 过饱和钙和磷酸盐溶液 1 分钟。粘接步骤遵循制造商的指导(Adper™ Singlebond2,3M™ 口腔护理产品),并添加树脂复合层。将试样在模拟体液(SBF)溶液中保存 24 小时,温度为 37ºC,模拟牙髓压力。对切片(1 平方毫米)进行 μTBS 测试。组间比较采用单因素方差分析、Tukey 后检验和 Dunnett 检验,与对照组比较,预设 α = 0.05。结果C+的μTBS值最高(p<0.05)。与 C- 相比,1P11-4 和 DMP-1/P11-4 的 μTBS 值明显更高(p<0.05)。DMP-1 和 P11-4 与 C- 相似(p<0.05)。结论 1P11-4 和 DMP-1/ P11-4 增强了与 CAD 的粘接强度,其中 1P11-4 的 μ-TBS 值约为 C+ 的 60%。微创牙科提倡选择性去除龋齿,包括去除坏死且无法再矿化的受感染牙本质,同时保留底部有可能再矿化的受影响牙本质。然而,受影响牙本质的附着力往往很差。在这项研究中,生物仿生制剂被用作一种表面处理剂来再矿化受龋齿影响的牙本质,目的是提高即刻粘接强度。
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