Antibacterial dental adhesive containing nanoantibacterial inorganic fillers

doi:10.7518/hxkq.2018.01.009

Abstract

Abstract:

Objective This investigation aimed to develop a novel antibacterial dental adhesive containing nanoantibacterial inorganic fillers and measure the dentin bonding strength, mechanical properties, and antibacterial property of the novel adhesive in vitro.Methods Novel nanoantibacterial inorganic fillers containing quaternary ammonium salt with long chain alkyl were synthesized on the basis of previous research. These novel nanoantibacterial inorganic fillers were added into the dental adhesive to prepare novel nanoantibacterial dental resin composite at mass fractions of 0%, 2.5%, 5.0%, 7.5%, and 10%; 0% was used as control. Dentin shear bonding test was used to evaluate the bonding strength. Flexural test was utilized to measure the novel resin composite flexural strength and elastic modulus. A dental plaque microcosm biofilm model with human saliva as inoculum was formed. Colony forming unit, lactic acid production, and live/dead assay of the biofilm on novel dental adhesive were calculated to assess the effect of novel dental adhesive on human dental plaque microcosm biofilm. Results The dentin shear bond strength, flexural strength, and elastic modulus were 28.9 MPa, 86.6 MPa, and 4.2 GPa, respectively, when the nanoantibacterial inorganic filler mass fraction in the dental adhesive reached approximately 5.0%. Consequently, the dentin shear bond strength and mechanical properties signi-ficantly increased. Addition of 2.5% nanoantibacterial inor-ganic fillers into the dental adhesive exerted no adverse effect on the mechanical properties significantly (P>0.05). Dental adhesive containing 5% or more nanoantibacterial inorganic fillers inhibited the metabolic activity of the dental plaque micro-cosm biofilm significantly, thereby displaying a strong antibacterial potency (P<0.05).Conclusion This novel antibacterial dental adhesive, which contained 5.0% nanoantibacterial inorganic filler, exhibited promising bonding strength, mechanical property, and antibacterial ability. Hence, this adhesive can be potentially used in caries inhibition in dental application.

Key words: quaternary ammonium salt, inorganic fillers, dental adhesive, dental plaque microcosm biofilm, anti-bacterial property

CLC Number:

R783

Deying Chen, Ge Hu, Chuanjian Zhou, Jianhua Ge, Junling Wu. Antibacterial dental adhesive containing nanoantibacterial inorganic fillers[J]. West China Journal of Stomatology, 2018, 36(1): 46-51.

Figures/Tables 3

Tab 1

Tab 2

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References 16

[1]	Spencer P, Ye Q, Park J, et al.Adhesive/Dentin interface: the weak link in the composite restoration[J]. Ann Biomed Eng, 2010, 38(6):1989-2003.
[2]	Imazato S.Bio-active restorative materials with antibacterial effects: new dimension of innovation in restorative dentistry[J].Dent Mater J, 2009, 28(1):11-19.
[3]	Belli R, Kreppel S, Petschelt A, et al.Strengthening of den-tal adhesives via particle reinforcement[J]. J Mech Behav Biomed Mater, 2014, 37:100-108.
[4]	吴峻岭, 周凯运, 朱婷, 等. 含长链烷基季铵盐的纳米抗菌无机填料的合成及其在牙科复合树脂中的应用研究[J]. 华西口腔医学杂志, 2014, 32(5):513-518.
	Wu JL, Zhou KY, Zhu T, et al.Synthesis of a nano-anti-bacterial inorganic filler containing a quaternary ammonium salt with long chain alkyl and its effect on dental resin com-posites[J]. West Chin J Stomatol, 2014, 32(5):513-518.
[5]	朱婷, 周凯运, 吴峻岭. 新型纳米抗菌无机填料抗菌防龋作用的动物实验研究[J]. 口腔颌面修复学杂志, 2014, 15
	(2):70-74.
6	Zhu T, Zhou KY, Wu JL.Animal study of antibacterial and anticariogenic properties of a novel antibacterial inorganic nanofiller[J]. Chin J Prosthodont, 2014, 15(2):70-74.
[6]	吴峻岭, 张强, 孙睿男, 等. 含长链烷基季铵盐纳米抗菌无机填料的复合树脂对人牙菌斑生物膜的影响[J]. 华西口腔医学杂志, 2015, 33(6):565-569.
	Wu JL, Zhang Q, Sun RN, et al.Dental plaque microcosm biofilm behavior on a resin composite incorporated with nano-antibacterial inorganic filler containing long-chain alkyl quaternary ammonium salt[J]. West Chin J Stomatol, 2015, 33(6):565-569.
[7]	Melo MA, Cheng L, Weir MD, et al.Novel dental adhesive containing antibacterial agents and calcium phosphate nano-particles[J]. J Biomed Mater Res Part B Appl Biomater, 2013, 101(4):620-629.
[8]	Wu J, Weir MD, Melo MA, et al.Development of novel self-healing and antibacterial dental composite containing calcium phosphate nanoparticles[J]. J Dent, 2015, 43(3): 317-326.
[9]	Imazato S, Kuramoto A, Takahashi Y, et al.In vitro anti-bacterial effects of the dentin primer of Clearfil Protect Bond[J]. Dent Mater, 2006, 22(6):527-532.
[10]	Li F, Chen J, Chai Z, et al.Effects of a dental adhesive in-corporating antibacterial monomer on the growth, adherence and membrane integrity of Streptococcus mutans[J]. J Dent, 2009, 37(4):289-296.
[11]	Li F, Weir MD, Chen J, et al.Effect of charge density of bonding agent containing a new quaternary ammonium methacrylate on antibacterial and bonding properties[J]. Dent Mater, 2014, 30(4):433-441.
[12]	Kim JS, Cho BH, Lee IB, et al.Effect of the hydrophilic nanofiller loading on the mechanical properties and the microtensile bond strength of an ethanol-based one-bottle dentin adhesive[J]. J Biomed Mater Res Part B Appl Bio-mater, 2005, 72(2):284-291.
[13]	Solhi L, Atai M, Nodehi A, et al.A novel dentin bonding system containing poly(methacrylic acid) grafted nanoclay: synthesis, characterization and properties[J]. Dent Mater, 2012, 28(10):1041-1050.
[14]	Fu SY, Feng XQ, Lauke B, et al.Effects of particle size, particle/matrix interface adhesion and particle loading on mechanical properties of particulate-polymer composites[J]. Composites Part B: Eng, 2008, 39(6):933-961.
[15]	Verbeek CJR.The influence of interfacial adhesion, particle size and size distribution on the predicted mechanical pro-perties of particulate thermoplastic composites[J]. Mater Let, 2003, 57(13):1919-1924.
[16]	Takahashi A, Sato Y, Uno S, et al.Effects of mechanical properties of adhesive resins on bond strength to dentin[J]. Dent Mater, 2002, 18(3):263-268.

组别	填料质量	粘接强	弯曲强	弹性模
组别	分数/%	度/MPa	度/MPa	量/GPa
A	0	21.9±3.2^a	64.5±10.0 ^a	3.0±0.5 ^a
B	2.5	25.0±3.2^b	72.0±11.0 ^a	3.4±0.7^a
C	5.0	28.9±3.5^c	86.6±14.4 ^b	4.2±0.8 ^b
D	7.5	17.7±3.4 ^d	66.0±12.0^a,c	2.9±0.5 ^a,c
E	10	16.8±3.4^d	50.6±9.4^d	2.4±0.4^d
F值		18.39	10.32	10.08
P值		<0.01	<0.01	<0.01

组别	填料质量分数/%	菌落计数/CFU			乳酸量/mmol·L^-1
组别	填料质量分数/%	全菌落	总链球菌	变异链球菌	乳酸量/mmol·L^-1
A	0	（5.4±1.0）×10^{9 a}	（5.3±0.9）×10^{8 a}	（5.0±1.0）×10^{7 a}	23.40±4.17^a
B	2.5	（5.0±1.0）×10^{6 b}	（5.5±0.8）×10^{5 b}	（5.4±1.0）×10^{3 b}	0.23±0.04 ^b
C	5.0	（5.7±1.0）×10^{6 b}	（5.8±1.0）×10^{5 b}	（5.5±0.9）×10^{3 b}	0.24±0.05 ^b
D	7.5	（5.6±1.2）×10^{6 b}	（5.6±1.0）×10^{5 b}	（5.9±1.1）×10^{3 b}	0.23±0.04 ^b
E	10	（5.9±1.1） ×10^{6 b}	（5.3±1.0）×10^{5 b}	（5.0±1.1）×10^{3 b}	0.25±0.05 ^b
F值		167.9	194.3	157.9	185.0
P值		<0.01	<0.01	<0.01	<0.01