Cinamaldeído e terpineol como inibidores de biofilmes de Candida albicans e Enterococcus faecalis / Cinamaldehído y terpineol como inhibidores de biopelículas de Candida albicans y Enterococcus faecalis / Cinnamaldehyde and terpineol as inhibitors of Candida albicans and Enterococcus faecalis biofilms

Introdução: Os fitoconstituintes são moléculas naturais que apresentam atividade antimicrobiana satisfatória e devem ser estudados quanto ao seu uso como novas substâncias para irrigação dos canais radiculares. Objetivo: Avaliar o efeito inibitório dos fitoconstituintes cinamaldeído e α-terpineol frente a biofilmes monoespécie e duoespécie de microrganismos envolvidos na infecção endodôntica. Métodos: Trata-se de um estudo experimental na área de microbiologia aplicada, in vitro, cego quanto às análises e randomizado. Foram selecionados os fitoconstituintes cinamaldeído e α-terpineol. A atividade antimicrobiana frente Candida albicans e Enterococcus faecalis foi avaliada por meio da análise da capacidade metabólica com o uso da resazurina e análise da viabilidade celular pelo plaqueamento. O meio de cultura e a clorexidina 1 porcento serviram de controle negativo e positivo, respectivamente. Resultados: Observou-se ausência de crescimento para exposição dos biofilmes nas concentrações de 10 e 5 mg/mL de ambos os fitoconstituintes. Na concentração de 2,5 mg/mL de terpineol, constatou-se crescimento somente nos biofilmes monoespécie de C. albicans e duoespécie. Já na concentração de 1mg/mL de terpineol e cinamaldeído, verificou-se crescimento para todos os biofilmes. Conclusão: O cinamaldeído e α-terpineol apresentaram atividade inibitória frente biofilmes monoespécie e duoespécie de Candida albicans e Enterococcus faecalis, nas concentrações de 10 e 5 mg/mL(AU)

Introducción: Los fitoconstituyentes son moléculas naturales que presentan actividad antimicrobiana satisfactoria y deben ser estudiados en cuanto a su uso como nuevas sustancias para irrigación de los canales radiculares. Objetivo: Evaluar el efecto inhibitorio de fitoconstituyentes cinamaldehído y α-terpineol frente a biopelículas monoespecies y duoespecies de microorganismos involucrados en la infección endodóntica. Métodos: Estudio experimental en el campo de la microbiología aplicada, in vitro, ciego al análisis y aleatorizado. Se seleccionaron los fitoconstituyentes cinamaldehído y α-terpineol. La actividad antimicrobiana frente Candida albicans y Enterococcus faecalis fue evaluada por medio del análisis de la capacidad metabólica con el uso de la resazurina y análisis de la viabilidad celular por el plaqueamiento. El medio de cultivo y la clorexidina 1 por ciento sirvieron de control negativo y positivo, respectivamente. Resultados: Se observó ausencia de crecimiento para exposición de las biopelículas en las concentraciones de 10 y 5 mg/mL de ambos fitoconstituyentes. En la concentración de 2,5 mg/mL de terpineol se constató crecimiento solo en los biofilmios monoespecies de C. albicans y duoespecies. En la concentración de 1 mg/mL de terpineol y cinamaldehído se verificó crecimiento para todas las biopelículas. Conclusiones: Cinamaldehído y α-terpineol presentaron actividad inhibitoria frente a biofilmes monoespecies y duoespecies de Candida albicans y Enterococcus faecalis, en las concentraciones de 10 y 5 mg/mL(AU)

Introduction: Phytoconstituents are natural molecules displaying satisfactory antimicrobial activity. Studies should be conducted about their use as new root canal irrigants. Objective: Evaluate the inhibitory effect of the phytoconstituents cinnamaldehyde and α-terpineol against mono- and duo-species biofilms of microorganisms involved in endodontic infection. Methods: An experimental applied microbiology blind randomized in vitro study was conducted. The phytoconstituents selected were cinnamaldehyde and α-terpineol. Antimicrobial activity against Candida albicans and Enterococcus faecalis was evaluated by metabolic capacity analysis with resazurin and cell viability analysis by the plaque. The culture medium and 1 percent chlorhexidine served as negative and positive controls, respectively. Results: An absence of growth was observed for exposure of the biofilms at concentrations of 10 and 5 mg/ml of both phytoconstituents. At a concentration of 2.5 mg/ml terpineol displayed growth only in the mono-species biofilms of C. albicans and duo-species biofilms. At a concentration of 1 mg/ml terpineol and cinnamaldehyde displayed growth in all biofilms. Conclusions: Cinnamaldehyde and α-terpineol displayed inhibitory activity against mono- and duo-species biofilms of Candida albicans and Enterococcus faecalis at concentrations of 10 and 5 mg/ml(AU)

Interkingdom interaction between C. albicans and S. salivarius on titanium surfaces.

BACKGROUND: In oral candidiasis models, Candida albicans and Streptococcus salivarius sp. biofilms have an antagonistic relationship. Due to this, S. salivarius have been used experimentally as probiotic. However, the interaction between these microorganisms in the peri-implantitis-like microenvironment remains unknown. This study aimed to evaluate the interaction between C. albicans and S. salivarius biofilms developed on titanium surfaces, under reduced oxygen levels. METHODS: Titanium specimens were pre-conditioned with artificial saliva (1 h, 37 °C). Single-species biofilms of C. albicans (ATCC 90028) and co-culture biofilms of C. albicans and S. salivarius (ATCC 7073) was developed for 24 and 72 h on titanium specimens. Subsequently, the effect of these intervals of biofilm formation and the interactions among the cells were evaluated. Biofilms from cultures were collected and analyzed for cell viability (CFU/mL), biofilm biomass, and total protein dosage. Data were analyzed using Mann-Whitney test (α = 5%). In addition, co-culture biofilms were analyzed using fluorescence microscopy. RESULTS: C. albicans growth did not change due to the presence of S. salivarius. Besides, co-culture biofilms showed a significant difference in the number of viable cells between 24 and 72 h of biofilm development (p < 0.05). The highest biofilm biomass and protein dosage were observed in co-cultures at 72 h of biofilm development. Fluorescence microscopy showed that co-cultures biofilms at 24 h have limited number of pseudo-hyphal and hyphae cells of C. albicans. At 72 h, these types of cells have increased. S. salivarius in both stages of development was present in some clusters surrounded by C. albicans. CONCLUSIONS: Co-cultivation of C. albicans with S. salivarius in biofilms developed on titanium surfaces, under lower oxygen levels, did not affect fungus growth. In addition, S. salivarius did not hind C. albicans virulence. These findings suggest that the use of S. salivarius as a probiotic would be ineffective in peri-implant disease treatment.