Anti-Candida activity and biocompatibility of silver nanoparticles associated with denture glaze: a new approach to the management of denture stomatitis.

The association of silver nanoparticles (AgNps) to sealant agent Palaseal® can be a promising alternative for complete denture wearers who may develop denture stomatitis (DS). The study aimed to evaluate the anti-Candida and biocompatible potential of silver nanoparticles synthesized by three routes associated with denture glaze to prevent and/or treat oral candidiasis. Surface acrylic resin specimens were treated with different associations of glaze with AgNps (VER+AgUV, VER+AgTurk and VER+AgGm). As controls, specimens were treated with glaze+nystatin (VER+Nyst), glaze only (VER) or submerged in PBS (PBS). Afterwards, Candida albicans biofilm was developed for 24 h, 15 d and 30 d. Subsequently, the biofilm was quantified by CFU/mL, XTT assay and confocal laser scanning microscopy. Fibroblasts were submitted to conditioned medium with the same associations for 24, 48 and 72 h and LIVE/DEAD® viability test was carried out. Regardless of the period, there was a significant reduction (p < 0.01) of viable fungal cells load, as well as inhibition of fungal metabolic activity, in specimens treated with glaze+AgNps associations, compared to VER and PBS. The anti-Candida effects of the associations were similar to the VER+Nyst group, with emphasis on VER+AgGm, which showed the highest percentage values of non-viable fungal cells maintained over time. The associations did not prove toxicity to fibroblasts. The AgNps exerted antimicrobial activity against C. albicans biofilms and are biocompatible. The most effective results were achieved with the association of glaze+silver nanoparticles synthesized by the green chemistry method (AgGm), proving to be an innovative alternative in the management of DS.

Silver nanoparticles in denture adhesive: An antimicrobial approach against Candida albicans.

OBJECTIVE: To evaluate the antimicrobial potential of silver nanoparticles (Ag NPs) synthesized using three different routes (ultraviolet light, Turkevich, and green chemistry method using Glycine max extract) associated with COREGA® denture powder adhesive. METHODS: Heat-cured acrylic resin specimens were treated with different Ag NPs associated with the adhesive (AD + Ag UV, AD + Ag Turk, and AD + Ag Gm groups). As controls, the specimens were treated with a combination of adhesive and nystatin (AD + Nyst group), only adhesive (AD group), or submerged on the surface of the specimens (PBS group). After the treatments, biofilms of C. albicans developed for 3, 6, and 12 h on the specimen surfaces. The biofilm was quantified using colony-forming units per milliliter, colorimetric assay, and confocal laser scanning microscopy. RESULTS: Regardless of the period, we observed an inhibition of fungal load and a reduction in metabolic activity and biofilm mass in the resin specimens treated with the combinations AD/Ag NPs, compared to AD and PBS. The antimicrobial action of the AD + Turk and AD + Ag Gm groups was similar than that for the AD + Nyst group in all periods and viability tests, except for the biofilm mass (12 h). CONCLUSIONS: The COREGA® adhesive with Ag NPs, mainly those synthesized using the Turkevich and Glycine max methods, showed excellent antimicrobial activity against C. albicans biofilms, maintained for up to 12 h. CLINICAL SIGNIFICANCE: The association of Ag NPs to the adhesive can add preventive or therapeutic effects against denture stomatitis, to this prosthetic material.

IFN-γ Mediated Signaling Improves Fungal Clearance in Experimental Pulmonary Mucormycosis.

We established three immunocompetent murine models of pulmonary mucormycosis to determine the involvement of the adaptive immune response in host resistance in pulmonary mucormycosis, a rapidly fatal disease caused mainly by Rhizopus spp. Immunocompetent inbred (C57BL/6, BALB/c) and outbred (Swiss) strains of mice were inoculated with R. oryzae via the intratracheal route. The inoculation resulted in a disseminated infection that spread to the brain, spleen, kidney, and liver. After 7 and 30 days of R. oryzae infection, BALB/c mice showed the lowest fungal load and highest production of IFN-γ and IL-2 by splenocytes. Swiss mice showed a higher fungal load 30 days p.i. and was associated with a weak development of the Th-1 profile. To confirm our findings, R. oryzae-infected IFN-γ-/- mice were evaluated after 60 days, where the mice still showed viable fungi in the lungs. This study showed, for the first time, that pulmonary mucormycosis in three widely used mouse strains resulted in an acute fungal dissemination without immunosuppression whose outcome varies according to the genetic background of the mice. We also identified the partial role of IFN-γ in the efficient elimination of R. oryzae during pulmonary infection.

Antimicrobial activity of denture adhesive associated with Equisetum giganteum- and Punica granatum-enriched fractions against Candida albicans biofilms on acrylic resin surfaces.

Candida biofilms adhere to the internal surface of removable dentures, which is an etiological factor in the pathogenesis of denture stomatitis (DS). Adhesive materials are used at the base of maxillary complete dentures to improve their retention and chewing qualities. This article reports the antimicrobial activity of the enriched fractions of Equisetum giganteum and Punica granatum incorporated into a denture adhesive against C. albicans biofilm. The biofilms were induced on the surface of heat-cured acrylic resin specimens that were previously treated with a mixture of adhesive/herb extracts. The antimicrobial activity was evaluated by CFU counts, XTT reduction, and SEM and CLSM analysis. Both herb extracts amplified the anti-biofilm action of the adhesive on the acrylic resin by up to 12 h. Therefore, when these extracts were combined with COREGA®, they played a collaborative and innovative role in biofilm control and can be considered alternatives for temporary use in the treatment and/or prevention of DS.

Equisetum giganteum e Punica granatum Linné associados a adesivo protético: atividade antimicrobiana contra biofilmes de Candida albicans / Equisetum giganteum and Punica granatum Linn associated with denture adhesive: antimicrobial activity against Candida albicans biofilms

Adesivos protéticos inibem a inflamação da mucosa subjacente e podem receber, em sua composição, componentes antimicrobianos, reduzindo o risco do desenvolvimento da estomatite protética (EP), doença relacionada principalmente à colonização das próteses pelo fungo Candida albicans. Tem sido relatada a atividade antifúngica de fitoterápicos, podendo auxiliar no tratamento da EP. Objetivo: Realizar o estudo fitoquímico de substâncias potencialmente ativas de Equisetum giganteum (Eg) (Cavalinha) e de Punica granatum (Pg) (Romã) e avaliar in vitro se a incorporação de extratos hidroalcóolicos de Eg e de Pg a um adesivo protético (COREGA®) influencia no desenvolvimento do biofilme de C. albicans (SC5314) sobre a superfície de resina acrílica termopolimerizável (Lucitone 550). Material e Métodos: Após identificação dos compostos dos fitoterápicos por HPLC-PAD, foi selecionada a fração e a concentração de interesse por meio da concentração inibitória mínima (CIM). Os biofilmes foram induzidos durante 3, 6 ou 12 horas sobre a superfície de corpos de prova de resina acrílica, previamente submetidos ao tratamento com o adesivo associado aos fitoterápicos (AD/Eg ou AD/Pg). Como controles, corpos de prova foram tratados apenas com adesivo (AD), com a associação adesivo/nistatina (AD/Nt) ou não recebam tratamento (PBS). A atividade antimicrobiana foi avaliada por meio da quantificação do biofilme pela contagem de unidades formadoras de colônias por mililitro (UFC/mL) e pelo percentual de redução da atividade metabólica das células fúngicas pelo ensaio colorimétrico de redução de sais de tetrazólio XTT (2,3 Bis (2-Methoxy-4-Nitro-5-Sulfophenil) 5 - [(Phenyl-Amino) Carbonyl] 2H - Tetrazolium Hidroxide). Os resultados foram expressos como média ± desvio padrão, e submetidos ao teste de Kruskal-Wallis para UFC/mL e Mann-Whitney ou análise de variância ANOVA-2 fatores seguido do teste post-hoc de Tukey HSD e teste de Dunnett para XTT. As médias dos valores obtidos pelas duas metodologias (UFC/mL e XTT) foram submetidas ao teste de correlação de Spearman (α= 0,05). Resultados: Foi possível identificar, pela análise em HPLCPAD, compostos derivados de kaempferol e quercetina em Eg e derivados de elagitaninos, como punicalina, em Pg. A associação de ambos os fitoterápicos ao adesivo (AD/Eg ou AD/Pg) reduziram significativamente o biofilme sobre a superfície da resina, em comparação ao grupo AD. Considerando os corpos de prova tratados, o período inicial (3 horas) apresentou os melhores resultados em relação à inibição do crescimento fúngico, comparando-se com os outros períodos. Conclusão: Possivelmente, o potencial antimicrobiano de Eg e de Pg está associado a compostos como flavonoides e taninos, respectivamente. Por fim, é possível que a associação destes fitoterápicos ao adesivo protético COREGA® poderá constituir uma alternativa temporária, viável e inovadora para auxiliar no tratamento e/ou prevenção da EP, desde que a manutenção das propriedades inerentes deste adesivo seja comprovada após estudos posteriores.(AU)

Denture adhesives inhibit inflammation of the underlying mucosal tissue and can receive, in their composition, antimicrobial components, reducing the risk of development of denture stomatitis (DS), a disease related mainly to the colonization of the prosthesis by the fungus Candida albicans. It has been reported the antifungal activity of herbal medicines, which may help in the treatment of DS. Objective: To realize the phytochemical study of potentially active substances of Equisetum giganteum (Eg) (Cola de caballo) and Punica granatum Linne (Pg) (Pomegranate) and evaluate in vitro the incorporation of hydroalcoholic extracts of Eg and Pg to a denture adhesive (COREGA®) influences the development C. albicans biofilm (SC5314) on the surface a polymerized acrylic resin (Lucitone 550). Material and Methods: After identification of compounds of the herbal by HPLC-PAD, the fraction and the concentration were selected by minimum inhibitory concentration (MIC). Biofilms were induced for 3, 6 or 12 hours on the surface of acrylic resin specimens, previously subjected to treatment with the adhesive associated with herbal (AD/Eg or AD/Pg). As controls, samples were treated with adhesive (AD), adhesive/nystatin association (AD/Nt) or not received treatment (PBS). The antimicrobial activity was evaluated by quantifying the biofilm using counting colony forming units per milliliter (CFU/mL) and by reduction percentage of fungal metabolic activity using colorimetric assay XTT (2,3 Bis (2-Methoxy-4-Nitro-5-Sulfophenil) 5 - [(Phenyl-Amino) Carbonyl] 2H - Tetrazolium Hidroxide). The results were expressed as mean ± standard deviation, and subjected to Kruscal-Wallis test for CFU/mL and Mann-Whitney or 2-way analysis of variance (ANOVA) followed by Tukey's HSD post-hoc test and Dunnett test for XTT. The mean values obtained by the two methods (CFU/mL and XTT) were submitted to Spearman correlation test (α=0,05). Results: It was possible to identify, by the analysis on HPLC-PAD, compounds derived from kaempferol and quercetin in Eg and ellagitannins derivatives, as punicalin in Pg. The combination of both herbal medicines to the adhesive (AD/Eg or AD/Pg) significantly reduced the biofilm on the surface of the resin, compared to the AD group. Accordingly, there was an increase in the percentage of reduction of the metabolic activity of biofilm at all periods in the presence of herbal medicines. Considering the treated specimens, the initial period (3 hours) showed the best results in relation to inhibition of fungal growth compared with other periods. Conclusion: Possibly, the antimicrobial potential of E. giganteum and P. granatum is associated with compounds such as flavonoids and tannins, respectively. Finally, we suggest that the combination of these herbal medicines to COREGA® prosthetic adhesive may be a temporary, viable and innovative alternative to assist in the treatment and/or prevention of DS, since the maintenance of the inherent properties of this adhesive is proven after further studies.(AU)