通过短时间暴露于广谱可见光和低浓度光敏剂的组合对变形链球菌进行光灭活。
Streptococcus mutans photoinactivation by combination of short exposure of a broad-spectrum visible light and low concentrations of photosensitizers.
作者信息
Paschoal Marco Aurelio, Santos-Pinto Lourdes, Lin Meng, Duarte Simone
机构信息
1 Department of Pediatric Dentistry, Araraquara Dental School, UNESP-Univ Estadual Paulist ,a, Araraquara, SP, Brazil .
出版信息
Photomed Laser Surg. 2014 Mar;32(3):175-80. doi: 10.1089/pho.2013.3656. Epub 2014 Feb 19.
OBJECTIVE
Investigate the photodynamic antimicrobial effect by the combination of a novel noncoherent broad spectrum visible light and low concentrations of curcumin and toluidine blue over suspensions of Streptococcus mutans.
BACKGROUND DATA
Long illumination times to activate photosensitizers (PS) and the use of high concentrations of these drugs in photodynamic antimicrobial chemotherapy (PACT) are limitations of its application as an antimicrobial technology in dental practice.
MATERIALS AND METHODS
Planktonic suspensions of S. mutans were standardized and submitted to PACT treatment at low concentrations of curcumin (C) (0.075; 0.75 and 7.5 μM) and toluidine blue (T) (0.25; 2.5 and 25 μM) exposed to 42 J/cm2 (12.2 sec; set power: 3.930 mW) of a white light (WL) (output wavelength range: 400-700 nm; beam diameter: 12 mm) (C+WL+ and T+WL+, PACT groups; incubation time, C: 60 sec; T: 5 min); isolated effect of both C (C+WL-) and T concentrations (T+WL-); effect of light source (C-WL+ and T-WL+) and suspensions neither submitted to PS nor to light-emitting diode (LED) illumination (control groups, C-WL- and T-WL-). Aliquots of each group were diluted and cultured on blood agar plates and the number of colony-forming units (CFU)/mL was recorded, transformed into log10 and analyzed by ANOVA and Tukey's test at a cutoff value at 0.05.
RESULTS
The groups submitted to PACT presented a bacterial reduction value of>5-log10 to both tested PS in comparison with control groups (p<0.05). PS or light source used alone demonstrated no antimicrobial effect on the number of viable bacterial counts.
CONCLUSIONS
The combination of a novel noncoherent light at short illumination exposure time with low concentrations of studied PS achieved a lethal photoinactivation of S. mutans, and can be considered an effective antimicrobial in vitro approach for reducing the number of micro-organisms involved with the dental caries process.
目的
研究一种新型非相干广谱可见光与低浓度姜黄素和甲苯胺蓝联合作用于变形链球菌悬液的光动力抗菌效果。
背景资料
在光动力抗菌化学疗法(PACT)中,激活光敏剂(PS)所需的长时间光照以及使用高浓度的这些药物是其作为牙科抗菌技术应用的局限性。
材料与方法
将变形链球菌的浮游悬液标准化,并在低浓度姜黄素(C)(0.075;0.75和7.5 μM)和甲苯胺蓝(T)(0.25;2.5和25 μM)下进行PACT处理,使其暴露于42 J/cm²(12.2秒;设定功率:3.930 mW)的白光(WL)(输出波长范围:400 - 700 nm;光束直径:12 mm)(C + WL +和T + WL +,PACT组;孵育时间,C:60秒;T:5分钟);单独的C(C + WL -)和T浓度(T + WL -)的分离效应;光源(C - WL +和T - WL +)的效应以及既未接受PS处理也未接受发光二极管(LED)照射的悬液(对照组,C - WL -和T - WL -)。将每组的等分试样稀释并在血琼脂平板上培养,记录菌落形成单位(CFU)/mL的数量,转换为log10并通过ANOVA和Tukey检验在截止值为0.05时进行分析。
结果
与对照组相比,接受PACT处理的组对两种测试的PS均呈现出大于5-log10的细菌减少值(p < 0.05)。单独使用PS或光源对存活细菌计数数量没有抗菌作用。
结论
新型非相干光在短光照暴露时间与低浓度研究的PS联合使用实现了变形链球菌的致死性光灭活,并且可被认为是一种有效的体外抗菌方法,用于减少参与龋齿过程的微生物数量。
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