具有蛋白质排斥和抗菌性能的牙科复合材料,用于抑制生物膜和龋齿。
Protein-repellent and antibacterial dental composite to inhibit biofilms and caries.
作者信息
Zhang Ning, Ma Jianfeng, Melo Mary A S, Weir Michael D, Bai Yuxing, Xu Hockin H K
机构信息
Biomaterials & Tissue Engineering Division, Department of Endodontics, Prosthodontics and Operative Dentistry, University of Maryland Dental School, Baltimore, MD 21201, USA; Department of Orthodontics, School of Stomatology, Capital Medical University, Beijing, China.
School & Hospital of Stomatology, Wenzhou Medical University, Wenzhou, Zhejiang, China.
出版信息
J Dent. 2015 Feb;43(2):225-34. doi: 10.1016/j.jdent.2014.11.008. Epub 2014 Dec 3.
OBJECTIVES
Biofilm acids contribute to secondary caries, which is a main reason for dental restoration failures. The objectives of this study were to: (1) develop a protein-repellent and antibacterial composite, and (2) investigate the effects of combining 2-methacryloyloxyethyl phosphorylcholine (MPC) with quaternary ammonium dimethylaminohexadecyl methacrylate (DMAHDM) on composite mechanical properties and biofilm response for the first time.
METHODS
MPC, DMAHDM and glass particles were mixed into a dental resin composite. Mechanical properties were measured in three-point flexure. Protein adsorption onto the composites was measured by a micro bicinchoninic acid method. A human saliva microcosm model was used to grow biofilms on composites. Colony-forming unit (CFU) counts, live/dead assay, metabolic activity, and lactic acid production of biofilms were determined.
RESULTS
Incorporation of 3% MPC and 1.5% DMAHDM into composite achieved protein-repellent and antibacterial capabilities without compromising the mechanical properties. Composite with 3% MPC+1.5% DMAHDM had protein adsorption that was 1/10 that of a commercial composite (p<0.05). The composite with 3% MPC+1.5% DMAHDM had much greater reduction in biofilm growth than using MPC or DMAHDM alone (p<0.05). Biofilm CFU counts on composite with 3% MPC+1.5% DMAHDM were more than three orders of magnitude lower than that of commercial control.
CONCLUSIONS
Dental composite with a combination of strong protein-repellent and antibacterial capabilities was developed for the first time. Composite containing MPC and DMAHDM greatly reduced biofilm growth and lactic acid production, without compromising mechanical properties of the composite.
CLINICAL SIGNIFICANCE
Novel composite with MPC and DMAHDM greatly reduced biofilm activity and is promising to inhibit secondary caries. The dual agents of MPC plus DMAHDM may have wide applicability to other dental materials.
目的
生物膜酸会导致继发龋,这是牙齿修复失败的主要原因。本研究的目的是:(1)开发一种具有抗蛋白和抗菌性能的复合材料,(2)首次研究2-甲基丙烯酰氧乙基磷酰胆碱(MPC)与甲基丙烯酸十六烷基二甲基氨基乙酯(DMAHDM)组合对复合材料力学性能和生物膜反应的影响。
方法
将MPC、DMAHDM和玻璃颗粒混入牙科树脂复合材料中。通过三点弯曲测量力学性能。采用微量双辛可宁酸法测量蛋白质在复合材料上的吸附。使用人体唾液微生态模型在复合材料上培养生物膜。测定生物膜的菌落形成单位(CFU)计数、活/死检测、代谢活性和乳酸产生量。
结果
在复合材料中加入3%的MPC和1.5%的DMAHDM可实现抗蛋白和抗菌能力,且不影响力学性能。含有3% MPC + 1.5% DMAHDM的复合材料的蛋白质吸附量是市售复合材料的1/10(p<0.05)。含有3% MPC + 1.5% DMAHDM的复合材料对生物膜生长的抑制作用比单独使用MPC或DMAHDM大得多(p<0.05)。含有3% MPC + 1.5% DMAHDM的复合材料上的生物膜CFU计数比市售对照低三个多数量级。
结论
首次开发出具有强大抗蛋白和抗菌性能的牙科复合材料。含有MPC和DMAHDM的复合材料大大减少了生物膜的生长和乳酸的产生,同时不影响复合材料的力学性能。
临床意义
含有MPC和DMAHDM的新型复合材料大大降低了生物膜活性,有望抑制继发龋。MPC加DMAHDM的双重作用剂可能在其他牙科材料中有广泛的应用。
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