新型抗水解抗菌单体用于牙科树脂胶粘剂。
Novel hydrolytic resistant antibacterial monomers for dental resin adhesive.
机构信息
Department of Prosthetic Dentistry, Faculty of Dentistry, Prince of Songkla University, Songkhla, Thailand, 90112.
Division of Physical Science and Center of Excellence for Innovation in Chemistry, Faculty of Science, Prince of Songkla University, Songkhla, Thailand, 90112.
出版信息
J Dent. 2023 Aug;135:104597. doi: 10.1016/j.jdent.2023.104597. Epub 2023 Jun 20.
OBJECTIVES
To evaluate the properties of novel hydrolytic resistant antibacterial monomers and to determine the properties of resin adhesives containing these monomers.
METHODS
Methacrylamide-based QAC (Quaternary Ammonium Compound) monomers, 1-(11-Methacryla-midoundecyl)pyridine-1-ium bromide (MAUPB) and 1-(12-Methacryl-amidododecyl)pyridine-1-ium bromide (MADPB), and their methacrylate-derivatives, N-(1-Methacryloylundecanyl)pyridinium bromide (MUPB) and N-(1-Methacryloyldodecanyl)pyridinium bromide (MDPB), were synthesized and characterized. The minimum inhibitory (MIC) and bactericidal (MBC) concentrations were determined against S.mutans and E.faecalis. Cytotoxicity of unpolymerized monomers were evaluated using L-929 and MDPC-23. Each monomer was incorporated into experimental resins (BisGMA/TEGDMA/CQ/EDMAB or BisGMA/HEMA/CQ/EDMAB) at 10wt%. FTIR Spectra were collected for degree of conversion (DC%) measurement. Bacterial attachment on resin disks were determined by fluorescent microscope. Mechanical properties of experimental resins were evaluated by flexural strength & modulus and shear bond strength testing.
RESULTS
The antibacterial activity of MDPB≥MUPB>MADPB>MAUPB. The TC of MAUPB> MADPB>MUPB >MDPB. Incorporation of MAUPB in BisGMA/TEGDMA-based resin, had no significant effect on DC%, while significantly increase DC% in BisGMA/HEMA-based Resin. MUPB and MAUPB containing resins showed less viable bacterial attachment than pure resins. After 3-month storage, resins containing MAUPB illustrated higher flexural strength than their corresponding resins containing MUPB. BisGMA/HEMA-based resin containing MAUPB illustrated significantly higher resin-dentin shear bond strength than that of MUPB and pure resin.
CONCLUSIONS
Methacrylamide monomer containing QAC, MAUPB, possessed antibacterial properties and superior physical and mechanical properties when incorporated in resin adhesives as compared to their corresponding methacrylate monomer, MUPB.
CLINICAL SIGNIFICANCE
Methacrylamide-based QAC monomers are potentially used to formulate antibacterial hydrolytic resistant resin adhesives and enhance resin-dentin bond strength.
目的
评估新型耐水解抗菌单体的性能,并确定含有这些单体的树脂胶粘剂的性能。
方法
合成并表征了基于甲丙烯酰胺的季铵化合物 (QAC) 单体 1-(11-甲丙烯酰胺基十一烷基)吡啶溴化物 (MAUPB) 和 1-(12-甲丙烯酰胺基十二烷基)吡啶溴化物 (MADPB) 及其甲基丙烯酰衍生物 N-(1-甲丙烯酰基十一烷基)吡啶溴化物 (MUPB) 和 N-(1-甲丙烯酰基十二烷基)吡啶溴化物 (MDPB)。测定了它们对变形链球菌和粪肠球菌的最小抑菌 (MIC) 和杀菌 (MBC) 浓度。使用 L-929 和 MDPC-23 评估未聚合单体的细胞毒性。将每个单体以 10wt%的比例掺入实验性树脂 (BisGMA/TEGDMA/CQ/EDMAB 或 BisGMA/HEMA/CQ/EDMAB) 中。收集傅里叶变换红外光谱 (FTIR) 以测量转化率 (DC%)。通过荧光显微镜确定树脂盘上的细菌附着。通过弯曲强度和模量及剪切结合强度测试评估实验性树脂的机械性能。
结果
MDPB≥MUPB>MADPB>MAUPB 的抗菌活性。MAUPB>MADPB>MUPB>MDPB 的 TC。MAUPB 掺入 BisGMA/TEGDMA 基树脂中对 DC%没有显著影响,而在 BisGMA/HEMA 基树脂中则显著增加 DC%。含有 MUPB 和 MAUPB 的树脂显示出比纯树脂更少的活菌附着。经过 3 个月的储存,含有 MAUPB 的树脂显示出比相应的含有 MUPB 的树脂更高的弯曲强度。含有 MAUPB 的 BisGMA/HEMA 基树脂的树脂-牙本质剪切结合强度明显高于 MUPB 和纯树脂。
结论
与相应的甲基丙烯酰单体 MUPB 相比,含有季铵化合物的甲丙烯酰胺单体 MAUPB 具有抗菌性能和更好的物理机械性能,当掺入树脂胶粘剂中时。
临床意义
基于甲丙烯酰胺的 QAC 单体可用于配制具有抗菌、耐水解的树脂胶粘剂,并提高树脂-牙本质的结合强度。
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