The Impact of Nicotine and Cigarette Smoke Condensate on Metabolic Activity and Biofilm Formation of Candida albicans on Acrylic Denture Material

The Impact of Nicotine and Cigarette Smoke Condensate on Metabolic Activity and Biofilm Formation of Candida albicans on Acrylic Denture Material

Purpose Smokers have increased denture stomatitis caused primarily by Candida albicans. The primary aim of this study was to demonstrate the impact of a wide range of nicotine and cigarette smoke condensate (CSC) concentrations on biofilm formation and metabolic activity of C. albicans on acrylic de...

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Bibliographic Details
Published in:Journal of prosthodontics Vol. 29; no. 2; pp. 173 - 178
Main Authors: Alzayer, Yasmin Mohammed, Gomez, Grace F., Eckert, George J., Levon, John A., Gregory, Richard L.
Format: Journal Article
Language:English
Published: United States Wiley Subscription Services, Inc 01-02-2020
Subjects:
Antifungal Agents
Biofilm
Biofilms
Candida albicans
candidiasis
Cigarette smoke
denture stomatitis
Dentures
Metabolism
Mushrooms
Nicotiana
Nicotine
Planktonic cells
Polymethyl Methacrylate
Polymethylmethacrylate
Smoking
Stomatitis
Tobacco
XTT
Biofilm
XTT
candidiasis
denture stomatitis
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Summary:Purpose Smokers have increased denture stomatitis caused primarily by Candida albicans. The primary aim of this study was to demonstrate the impact of a wide range of nicotine and cigarette smoke condensate (CSC) concentrations on biofilm formation and metabolic activity of C. albicans on acrylic denture material. Materials and Methods C. albicans (ATCC strain 10231) was used. Standardized denture acrylic (PMMA) specimens (total of 135 specimens) were incubated with C. albicans and exposed to nicotine and CSC at different concentrations (0, 0.25, 0.5, 1, 2, 4, 8, 16, and 32 mg/ml) and (0, 0.25, 0.5, 1, 2, and 4 mg/ml), respectively. For each experiment, 3 samples per nicotine and CSC concentration and a total of 45 specimens (27 specimens for the nicotine and 18 specimens for the CSC‐treated samples) were used and were selected randomly for each group. The control group consisted of 0 mg/ml of nicotine or CSC. The viability of C. albicans was measured using spiral plating on blood agar plates. The effect of nicotine and CSC concentrations on planktonic cells was were measured using a microplate reader. Metabolic activity of 24‐hour‐old established C. albicans biofilm exposed to nicotine and CSC for 24 hours in microtiter plates was determined using a 2,3‐bis (2‐methoxy‐4‐nitro‐5‐sulfophenyl)‐2H‐tetrazolium‐carboxanilide (XTT) reduction assay. Results The viability of C. albicans increased concomitant with increasing concentrations of CSC and nicotine, particularly at 0.5 and 2 mg/ml, respectively. Concentrations of CSC and nicotine above this resulted in an inhibitory effect on C. albicans viability. CSC and nicotine at 4 and 16 mg/ml, respectively, increased C. albicans biofilm metabolic activity. Conclusion Nicotine and CSC up to certain concentrations caused increases in biofilm formation, metabolic activity, viability, and planktonic cell absorbance of C. albicans. This in vitro study demonstrates the effectiveness of tobacco on promoting the growth of C. albicans and suggests their potential contributing factor in C. albicans biofilm related infections in smokers.
Bibliography:Authors declare that they have no conflict of interest
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ISSN:1059-941X
1532-849X
DOI:10.1111/jopr.12945