Antibacterial and fluorescent clear aligner attachment resin modified with chlorhexidine loaded mesoporous silica nanoparticles and zinc oxide quantum dots.

Lingyun Cao, Jiarong Yan, Ting Luo, Huiyi Yan, F. Hua, Hong He
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引用次数: 1

Abstract

OBJECTIVES To develop an antibacterial and fluorescent clear aligner attachment resin via the incorporation of chlorhexidine loaded pore-expanded mesoporous silica nanoparticles (CHX@pMSN) and amino-silane functionalized zinc oxide quantum dots (aZnOQDs), and to evaluate its antibacterial activity, fluorescence capability, esthetic properties, mechanical performance and biocompatibility. METHODS CHX@pMSN and aZnOQDs were incorporated into the commercial resin composites (Filtek Z350 XT, 3M) at different mass fractions, control group: Filtek; fluorescent attachment resin (FAR): Filtek + 3 wt% aZnOQDs; antibacterial and fluorescent attachment resin (AFAR)-1: Filtek + 3 wt% aZnOQDs + 1 wt% CHX@pMSN; AFAR-2: Filtek + 3 wt% aZnOQDs + 3 wt% CHX@pMSN; AFAR-3: Filtek + 3 wt% aZnOQDs + 5 wt% CHX@pMSN. CHX release, antibacterial activity, fluorescence capability, color change, stain resistance, degree of conversion, depth of cure, polymerization shrinkage, water sorption and solubility, softening in solvent, flexural strength, flexural modulus, shear bond strength, and cytotoxicity were evaluated comprehensively. RESULTS CHX could be continuously released from the AFAR groups for up to 30 days. CFU, MTT, lactic acid production, SEM and CLSM evaluation showed AFAR-2 and AFAR-3 could effectively inhibit S. mutans biofilms even after 1-month aging. Only AFAR-3 showed clinically perceptible color change and all the experimental groups were not more susceptible to staining. AFAR-1 and AFAR-2 could suppress polymerization shrinkage and enhance the resistance to degradation without compromising other properties, including degree of conversion, water sorption and solubility, flexural strength, flexural modulus, and shear bond strength. Depth of cure of all the four experimental groups was significantly decreased (p < 0.05) but still within the ISO standard. CCK-8 assay and live/dead cell staining denied the cytotoxicity of experimental resins. Fluorescence intensity tests showed that FAR and AFAR-2 could emit strong yellowish fluorescence under the excitation of ultraviolet for up to six months. CONCLUSIONS AFRA-2 possessed long-term antibiofilm activity, strong fluorescence capability and satisfying biocompatibility without compromising esthetic and mechanical properties. This study proposed a new strategy for reducing bacteria accumulation around the attachment, which is also promising in helping orthodontists to remove the attachment thoroughly and precisely.
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氯己定负载介孔二氧化硅纳米颗粒和氧化锌量子点修饰的抗菌和荧光清晰对准剂附着树脂。
目的:通过掺入氯己定负载的孔膨胀介孔二氧化硅纳米颗粒,开发一种抗菌和荧光透明对准剂附着树脂(CHX@pMSN)和氨基硅烷功能化氧化锌量子点(aZnOQDs),并评估其抗菌活性、荧光能力、美观性能、机械性能和biocompatibility.METHODSCHX@pMSN和aZnOQD以不同的质量分数掺入商业树脂复合材料(Filtek Z350XT,3M)中,对照组:Filtek;荧光附着树脂(FAR):Filtek+3wt%的aZnOQDs;抗菌荧光附着树脂(AFAR)-1:Filtek+3wt%的aZnOQDs+1wt%CHX@pMSN;AFAR-2:Filtek+3 wt%aZnOQDs+3 wt%CHX@pMSN;AFAR-3:Filtek+3 wt%aZnOQDs+5 wt%CHX@pMSN.综合评价了CHX的释放、抗菌活性、荧光性能、颜色变化、耐污性、转化度、固化深度、聚合收缩、吸水性和溶解性、在溶剂中的软化、弯曲强度、弯曲模量、剪切结合强度和细胞毒性。RESULTSCHX可以从AFAR组中连续释放长达30天。CFU、MTT、乳酸生成、SEM和CLSM评价显示,AFAR-2和AFAR-3即使在老化1个月后也能有效抑制变异链球菌的生物膜。只有AFAR-3显示出临床上可察觉的颜色变化,并且所有实验组都不更容易染色。AFAR-1和AFAR-2可以抑制聚合收缩并增强抗降解性,而不会影响其他性能,包括转化度、吸水性和溶解性、弯曲强度、弯曲模量和剪切结合强度。四个实验组的治愈深度均显著降低(p<0.05),但仍在ISO标准范围内。CCK-8测定和活/死细胞染色否定了实验树脂的细胞毒性。荧光强度测试表明,FAR和AFAR-2在紫外线激发下可发出长达6个月的强烈黄色荧光。结论SAFRA-2具有长期的抗菌膜活性、较强的荧光性能和良好的生物相容性,且不影响美观性和力学性能。这项研究提出了一种减少附着物周围细菌积聚的新策略,这也有助于正畸医生彻底准确地去除附着物。
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