树脂复合材料上变形链球菌生物膜代谢的实时评估
Real-time assessment of Streptococcus mutans biofilm metabolism on resin composite.
作者信息
Esteban Florez Fernando Luis, Hiers Rochelle Denise, Smart Kristin, Kreth Jens, Qi Fengxia, Merritt Justin, Khajotia Sharukh Soli
机构信息
Dental Materials, College of Dentistry, University of Oklahoma Health Sciences Center, 1201 N. Stonewall Avenue, Oklahoma City, OK 73117, United States.
Microbiology and Immunology, College of Medicine, University of Oklahoma Health Sciences Center, 940 Stanton L. Young Blvd., BMSB 1053, Oklahoma City, OK 73104, United States; Restorative Dentistry, Oregon Health & Science University, MRB424, 3181 SW Sam Jackson Park Rd., Portland, OR 97239, United States.
出版信息
Dent Mater. 2016 Oct;32(10):1263-1269. doi: 10.1016/j.dental.2016.07.010. Epub 2016 Aug 8.
OBJECTIVE
The release of unpolymerized monomers and by-products of resin composites influences biofilm growth and confounds the measurement of metabolic activity. Current assays to measure biofilm viability have critical limitations and are typically not performed on relevant substrates. The objective of the present study was to determine the utility of firefly luciferase assay for quantification of the viability of intact biofilms on a resin composite substrate, and correlate the results with a standard method (viable colony counts).
METHODS
Disk-shaped specimens of a dental resin composite were fabricated, wet-polished, UV-sterilized, and stored in water. Biofilms of Streptococcus mutans (strain UA159 modified by insertion of constitutively expressed firefly luc gene) were grown (1:500 dilution; anaerobic conditions, 24h, 37°C) in two media concentrations (0.35x and 0.65x THY medium supplemented with 0.1% sucrose; n=15/group). An additional group of specimens with biofilms grown in 0.65x+sucrose media was treated with chlorhexidine gluconate solution to serve as the control group. Bioluminescence measurements of non-disrupted biofilms were obtained after addition of d-Luciferin substrate. The adherent biofilms were removed by sonication, and bioluminescence of sonicated bacteria was then measured. Viable colony counts were performed after plating sonicated bacteria on THY agar plates supplemented with spectinomycin. Bioluminescence values and cell counts were correlated using Spearman correlation tests (α=0.05).
RESULTS
Strong positive correlations between viable colony counts and bioluminescence values, both before- and after-sonication, validated the utility of this assay.
SIGNIFICANCE
A novel non-disruptive, real-time bioluminescence assay is presented for quantification of intact S. mutans biofilms grown on a resin composite, and potentially on antibacterial materials and other types of dental biomaterials.
目的
树脂复合材料中未聚合单体和副产物的释放会影响生物膜生长,并干扰代谢活性的测量。目前用于测量生物膜活力的检测方法存在严重局限性,且通常不在相关底物上进行。本研究的目的是确定萤火虫荧光素酶检测法在定量树脂复合材料底物上完整生物膜活力方面的实用性,并将结果与标准方法(活菌计数)进行关联。
方法
制作牙科树脂复合材料的圆盘形标本,进行湿抛光、紫外线灭菌,并保存在水中。变形链球菌生物膜(通过插入组成型表达的萤火虫luc基因修饰的UA159菌株)在两种培养基浓度(补充0.1%蔗糖的0.35x和0.65x THY培养基;每组n = 15)中培养(1:500稀释;厌氧条件,24小时,37°C)。另一组在0.65x + 蔗糖培养基中培养生物膜的标本用葡萄糖酸洗必泰溶液处理作为对照组。在加入d - 荧光素底物后,对未破坏的生物膜进行生物发光测量。通过超声处理去除附着的生物膜,然后测量超声处理后细菌的生物发光。将超声处理后的细菌接种在补充有壮观霉素的THY琼脂平板上进行活菌计数。使用Spearman相关检验(α = 0.05)对生物发光值和细胞计数进行关联。
结果
超声处理前后,活菌计数与生物发光值之间均呈现出强正相关,验证了该检测方法的实用性。
意义
提出了一种新型的非破坏性实时生物发光检测方法,用于定量在树脂复合材料上生长的完整变形链球菌生物膜,也可能适用于抗菌材料和其他类型的牙科生物材料。
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