Elution from direct composites for provisional restorations

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-04-12 DOI:10.2186/jpr.jpr_d_23_00305

Marko Turkalj, Siemon De Nys, Lode Godderis, Jeroen Vanoirbeek, Bart Van Meerbeek, Kirsten L. Van Landuyt

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Abstract

Purpose To assess elution from direct composite materials for provisional restorations and compare them with elution from direct restorative composites for permanent restorations.

Methods Two dual-cure (Integrity Multi-Cure and Tempsmart DC) and two self-curing composites (Protemp 4 and Structur 3) were used, with Essentia serving as a reference. Cylindrical specimens (n=20) were cured according to the manufacturer's instructions; the dual-cure materials were prepared in both self- and dual-curing modes. Elution experiments were performed using water and absolute ethanol. The samples were incubated at 37 °C for either 24 h or four weeks; the extraction solvents were refreshed weekly. The eluted BisEMA (-3 / -6 / -10), BisGMA, CQ, UDMA, and TEGDMA were quantified using UHPLC-MS/MS.

Results Monomer elution was detected in all provisional composites at 24 h and four weeks, but the amounts released did not exceed those released by the reference composite. When prepared in self-curing mode, Integrity Multi-Cure exhibited significantly higher elution of BisEMA-3, -6, and -10 in ethanol both after 24 h and cumulatively after four weeks. Self-cured Tempsmart DC released significantly more CQ, TEGDMA, and UDMA in both water and ethanol after immersion for 24 h and four weeks, along with significantly more BisGMA in ethanol both after 24 h and four weeks comparison to dual-cured Tempsmart DC (two-way ANOVA, post-hoc Tukey, P < 0.05).

Conclusions Provisional composite materials did not elute higher amounts of monomers than a restorative composite. Dual-cured materials, prepared in the self-curing mode, show a trend towards higher monomer elution.

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用于临时修复体的直接复合材料的洗脱

目的评估用于临时修复的直接复合材料的洗脱率，并将其与用于永久修复的直接修复复合材料的洗脱率进行比较。方法使用两种双固化复合材料（Integrity Multi-Cure 和 Tempsmart DC）和两种自固化复合材料（Protemp 4 和 Structur 3），并以 Essentia 作为参照。圆柱形试样（n=20）按照制造商的说明进行固化；双固化材料以自固化和双固化两种模式制备。使用水和绝对乙醇进行洗脱实验。样品在 37 °C 下培养 24 小时或四周；萃取溶剂每周更新一次。使用超高效液相色谱-质谱/质谱对洗脱出的 BisEMA (-3 / -6 / -10)、BisGMA、CQ、UDMA 和 TEGDMA 进行定量。以自固化模式制备时，Integrity Multi-Cure 在乙醇中的 BisEMA-3、-6 和 -10 的洗脱量在 24 小时后和四周后的累积值都明显较高。与双固化 Tempsmart DC 相比，自固化 Tempsmart DC 在浸泡 24 小时和四周后，在水和乙醇中释放出的 CQ、TEGDMA 和 UDMA 明显更多，在乙醇中释放出的 BisGMA 也明显更多（双向方差分析，Tukey 后检验，P <0.05）。以自固化模式制备的双固化材料显示出单体洗脱量更高的趋势。

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