Preparation of zinc and nitrogen modified titanium dioxide nanoparticles/mesoporous alumina composite resin and its performance evaluation
10.13481/j.1671-587X.20250406
- VernacularTitle:锌和氮改性二氧化钛纳米粒子/介孔三氧化二铝复合树脂的制备及其性能评价
- Author:
Rong HAN
1
;
Zhimin ZHANG
;
Yuanhang ZHAO
;
Jiayi WANG
;
Wenjun TANG
;
Hong ZHANG
Author Information
1. 吉林大学口腔医院牙体牙髓病科,吉林 长春 130021;吉林大学口腔医院 吉林省口腔生物医学国际联合研究中心,吉林 长春 130021
- Keywords:
Composite resin;
Titanium dioxide;
Mesoporous alumina;
Antibacterial property;
Mechanical strength
- From:
Journal of Jilin University(Medicine Edition)
2025;51(4):904-913
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To prepare novel dental composite resins using zinc(Zn)-and nitrogen(N)-modified titanium dioxide(TiO?)nanoparticles(NPs)and mesoporous alumina(Al?O?,r type,20 mm)NPs as reinforcing fillers,systematically evaluating their antibacterial activity,mechanical strength,basic performance,and biosafety to obtain the dental composite resins with excellent antibacterial activity and mechanical strength.Methods:Zn-N-TiO? NPs and mesoporous Al?O? NPs were added into a resin matrix at varying mass ratios to prepare five composite resins:control group(no filler),group 0(Zn-N-TiO?∶Al?O?=1∶0),group 1(Zn-N-TiO?∶Al?O?=1∶1),group 2(Zn-N-TiO?∶Al?O?=1∶2),and group 3(Zn-N-TiO?∶Al?O?=1∶3).Plate colony counting method was used to detect the number of adhered bacteria on composite resin surfaces in various groups and calculate the antibacterial rate;scanning electron microscope(SEM)was used to observe the morphology of adhered bacteria in various groups;universal testing machine was used to measure flexural strength(FS)and elastic modulus(EM)of composite resins in various groups;SEM was used to observe fracture surface morphology of composite resins in various groups;microhardness tester was used to determine Vickers microhardness of the composite resins in various groups;Fourier transform infrared spectroscope was used to detect double bond conversion rate(DC)after 20 s photocuring and calculate curing depth;water contact angle meter was used to measure water contact angle(WCA),water sorption property(WSP),and water solubility level(WSL)of composite resins in various groups;cell counting kit-8(CCK-8)method was used to evaluate relative growth rate(RGR)of the mouse fibroblast L-929 cells cultured in composite resin extracts on days 1,3,and 5 and determine in vitro cytotoxicity grade.Results:The plate colony counting results showed that compared with control group,the colony counts on agar plates in the other groups were significantly reduced,with group 1 showing the lowest count.The SEM images results showed densely distributed and morphologically intact Streptococcus mutans in control group;small clusters of bacteria with depressed cell membranes in group 0 and group 3;sparsely distributed bacteria with obvious membrane shrinkage and cytoplasmic leakage in group 1 and group 2.No statistically significant difference in colony counts was found between group 1 and group 2(P>0.05),but both were lower than the other groups(P<0.05).All the composite resins in experimental groups exhibited>85%antibacterial rates,with group 1 and group 2 exceeding 99%.The composite resins in group 0 showed the lowest FS.With addition of mesoporous Al?O?,the FS of the composite resin in group 1 and group 2 were significantly increased,with the composite resin in group 2 showing the highest FS among all groups.Although the FS of the composite resin in group 3 was lower than that in group 2,but it remained higher than other groups(P<0.05).The SEM images results showed that in control group,the smooth-surfaced sillicon dioxide(SiO?)particles exhibited clear fracture interfaces with resin matrix,with>50%particle exposure;the composite resin in group 0 showed similar morphology and large Zn-N-TiO? agglomerates with tight filler-matrix bonding;the composite resin in group 1,2,and 3 showed resin adhesion to SiO? surfaces(<50%particle exposure)and uneven fracture surfaces.Fractured SiO? spheres were observed in group 2.Filler distribution was uniform in group 1 and group 2,while the minor NP agglomeration occurred in group 3.The composite resin in control group showed the lowest EM.The EM was significantly improved in experimental groups,with group 3 having the highest value.Group 0 exhibited the lowest Vickers microhardness,showing statistically significant differences among other groups(P<0.05).The Vickers microhardness of the composite resion was gradually increased with the rising of Al?O? content.The resins in group 2 and group 3 achieved>45 HV hardness,representing increases of 29.73%and 33.82%compared with control group,and 51.34%and 56.28%compared with group 0.No significant differences in DC of the composite resin were found among groups(P>0.05).The depth of cure for all composite resin groups exceeded 4 mm,with no significance differences observed between various groups(P>0.05).The composite resin in group 0 showed the smallest WCA.The hydrophobicity of the composite resion was increased with the rising of Al?O? content,but all the WCA values remained<80°.The composite resin in group 3 had the largest WCA without statistical significance compared with group 2(P>0.05).Filler incorporation reduced the water sorption/solubility.The composite resin in the CCK-8 assay results showed the composite resins in all groups had RGR>75%,meeting in vitro safety standards.Conclusion:Reinforcing fillers impart superior antibacterial activity and mechanical properties to composite resins.Under experimental conditions,group 2 composite resin achieves optimal comprehensive performance in antibacterial efficacy and mechanical strength,demonstrating promising clinical application potential.
