摘要
目的利用层层自组装技术在钛表面构建聚L赖氨酸(PLL)-海藻酸钠(ALG)多层膜,并在膜层中导入纳米银颗粒,以评价其杀菌效果。方法利用层层自组装的方法将带正电荷的PLL与带负电荷的ALG在钛片上交替吸附沉积形成聚电解质多层膜,再用盐诱导相分离技术在多层膜中形成一定尺寸的微孔并在其中包裹纳米银粒子。扫描电子显微镜(SEM)、傅立叶红外光谱(FTIR)和能谱分析(EDX)对表面进行表征。并与变形链球菌共培养,观察对细菌的粘附和杀灭的作用。结果 SEM、FTIR和EDX分析证实:多层膜成功沉积在钛片表面,并且纳米银粒子被包裹于其中。荧光显微镜显示纯钛表面有大量的活细菌,沉积聚电解质多层膜后细菌数量减少,导入纳米银离子之后附着于钛片上的细菌数量更少,并且随着膜层数的增多,银离子含量增加,抗菌效果也增强。SEM结果与荧光结果一致。结论通过层层自组装的方法在钛金属表面沉积载银PLL-ALG聚电解质多层膜,能抑制细菌的粘附。同时,随着膜层数的增加,银粒子含量增加,抗菌效果增强。
Objective To evaluate the antibacterial effect ofAg-carrying polyeleetrolyte multilayers (PEMs) assembled with PLL and ALG on titanium (Ti) surface. Methods PEMs were prepared by layer-by-layer assembly with PLL and ALG. Silver nanoparticles were incorporated into the micropores in PEMs formed by saltinduced phase separation. Modified surface was characterized using SEM, FTIR, EDX. The antibacterial effect of modified surface was evaluated on Streptococcus mutans. Results SEM, FTIR, EDX showed PEMs of PLL and ALG were successfully deposited on Ti surface, and silver nanopartieles were incorporated. Fluorescence microscopy revealed that there were a large number of live bacteria on bare Ti surface, fewer bacteria were present on PEMs, and the number of live bacteria was further reduced after nanoparticle incorporation. This antibacterial effect was further supported by SEM. Conclusions Ag-carrying PLL/ALG polyelectrolyte multilayer films were deposited on titanium surface, and showed significant antibacterial activity. With the increasing of PEMs, silver content was increased, and antibacterial effect was enhanced.
出处
《口腔材料器械杂志》
2017年第2期67-73,共7页
Chinese Journal of Dental Materials and Devices
关键词
层层自组装
钛种植体
聚电解质多层膜
抗菌
纳米银
Layer-by-Layer Titanium implants Polyelectrolyte multilayer films Antibacteria Nano-silver
