Department of Oral Rehabilitation and Prevention, Dental School, Federal University of Goiás, Av. Universitária, Campus Colemar Natal e Silva, Goiânia, GO 74605-220, Brazil.
Laboratory of Medicinal Pharmaceutical Chemistry, School of Pharmacy, Federal University of Goiás, 5ª Avenida, Campus Colemar Natal e Silva, Goiânia, GO 74605-170, Brazil.
Dent Mater. 2024 Nov;40(11):e53-e62. doi: 10.1016/j.dental.2024.07.032. Epub 2024 Aug 8.
This study aimed to investigate the effects of adding cholesteryl methacrylate (CM) monomer to experimental composite resins and evaluate its impact on polymerization shrinkage force (PSF), Knoop microhardness (KHN), sorption and solubility (SS), vulnerability to spontaneous oxidation (VOE), porosity (BES), viscosity (V), and cross-link density (CLD). CM was synthesized, mixed with varying proportions of Bis-GMA, 70 wt% filler particles, and 40 % TEGDMA. The groups tested were: CM0 (60 % Bis-GMA), CM6 (54 % Bis-GMA/6 % CM), CM12 (48 % Bis-GMA/12 % CM), CM18 (42 % Bis-GMA/18 % CM) and CM24 (36 % Bis-GMA/24 % CM). The PSF was evaluated using a universal testing machine. KHN was measured with a 50 g load for 30 s. SS was determined according to ISO 4049:2009. VOE was measured with a three-electrode system in an electrochemical cell. BES images were obtained using an electron microscope to assess porosity. Viscosity was measured through rheological analysis. CLD was estimated from hardness readings before and after ethanol storage.
CM6 (0.34 N) and CM12 (0.34 N) exhibited the lowest PSF values compared to CM0 (0.91 N). For KHN, CM6 (32.03) and CM12 (31.03) had higher values than CM0 (25.83) and were similar to CM18 (29.39) and CM24 (28.64). SS showed no significant differences among the groups. VOE indicated low vulnerability across all groups. CM12 had greater porosity compared to CM0 in BES images. CM0 had the lowest viscosity among the groups. No differences in CLD were observed among CM0, CM12, CM18, and CM24 regarding softening effects.
Adding CM to Bis-GMA/TEGDMA composite resins can reduce polymerization shrinkage force and increase the initial Knoop microhardness without affecting the other properties studied.
本研究旨在探讨向实验性复合树脂中添加甲基丙烯酸胆固醇酯(CM)单体的效果,并评估其对聚合收缩力(PSF)、维氏硬度(KHN)、溶胀和溶解度(SS)、自发氧化易感性(VOE)、孔隙率(BES)、粘度(V)和交联密度(CLD)的影响。CM 单体通过合成,与不同比例的 Bis-GMA、70wt%填料颗粒和 40wt%TEGDMA 混合。测试的组分为:CM0(60%Bis-GMA)、CM6(54%Bis-GMA/6%CM)、CM12(48%Bis-GMA/12%CM)、CM18(42%Bis-GMA/18%CM)和 CM24(36%Bis-GMA/24%CM)。PSF 通过万能试验机进行评估。KHN 用 50g 负载在 30s 内测量。SS 根据 ISO 4049:2009 确定。VOE 通过三电极系统在电化学池内测量。BES 图像通过电子显微镜获得,以评估孔隙率。Viscosity 通过流变分析测量。CLD 通过乙醇储存前后的硬度读数进行估计。
与 CM0(0.91N)相比,CM6(0.34N)和 CM12(0.34N)的 PSF 值最低。对于 KHN,CM6(32.03)和 CM12(31.03)的数值高于 CM0(25.83),与 CM18(29.39)和 CM24(28.64)相似。SS 各组之间无显著差异。VOE 表明所有组的易感性均较低。BES 图像中,CM12 的孔隙率大于 CM0。CM0 的粘度在各组中最低。CM0、CM12、CM18 和 CM24 之间的 CLD 无差异,软化效果无差异。
向 Bis-GMA/TEGDMA 复合树脂中添加 CM 可以降低聚合收缩力并提高初始维氏硬度,而不会影响其他研究性能。
