Mechanisms of interaction between Candida albicans and Streptococcus mutans: an experimental and mathematical modelling study.

OBJECTIVE: To evaluate the mechanisms of microbial interaction between the oral pathogens Candida albicans and Streptococcus mutans. MATERIALS AND METHODS: Growth kinetics for the two micro-organisms, cultured individually or together, were followed experimentally for 36 h. The different growth curves were analysed by means of mathematical modelling. RESULTS: Under the experimental conditions, S. mutans final concentration, when grown individually, was 5-times that of C. albicans. Contrarily, when both micro-organisms grew together, this ratio was inversed and C. albicans final concentration was even higher than that of S. mutans. When both micro-organisms share the niche, a model including linear competition among one another was best suited to reproduce the experimental observations. The results of this model show that the initial growth rates of both species are positively influenced by their mutual interaction. However, at longer incubation times, C. albicans prevents bacterial growth and achieves concentrations 4-times higher than when grown individually. CONCLUSIONS: The results suggest that C. albicans biofilm formation could be potentiated by the presence of S. mutans by two mechanisms: synergically at short times and by competition at longer periods.

Antibiotic susceptibility of Staphylococcus aureus isolates in oral mucosa and pockets of patients with gingivitis-periodontitis.

Both oral cavity and subgingival pocket are ecological niches conducive to hosting microorganisms that may act as opportunistic pathogens, such as Staphylococcus aureus and especially methicillin-resistant Staphylococcus aureus (MRSA). Early detection of MRSA is a matter of concern to Public Health. The aim of our study was to determine phenotypic and genotypic detection of methicillin resistance of S. aureus in oral mucosa and subgingival pocket in 102 patients with gingivitis-periodontitis. The prevalence of S. aureus was 10.8% (n = 11) in subgingival pocket and 19.6% (n = 20) in oral mucosa. We obtained 31 isolates of S. aureus of which 13 were mecA positive and 18 were mecA negative. Detection of mecA gene by PCR was used as the reference method to compare the results of phenotypic methods to determine methicillin resistance. Early, accurate detection of S. aureus through phenotyping and genotyping methods is crucial for assessing the colonization and preventing the spread of MRSA.

Prevalence of Staphylococcus spp and Candida spp in the oral cavity and periodontal pockets of periodontal disease patients.

The oral cavity can act as a reservoir of certain pathogens that can cause systemic infections. The periodontal pocket is an ecological niche appropriate for hosting microorganisms that could act as opportunistic pathogens. The ability of Staphylococcus spp and Candida spp to form a biofilm and live within certain niches allows them to develop mechanisms that increase persistence, such as the evasion of host defenses and antibiotic efficacy. These microorganisms can easily be or become resistant to antibiotics and lead to superinfection. The aims of this study were to assess the presence of Staphylococcus aureus and Staphylococcus spp in biofilm in subgingival plaque and oral cavity of individuals with gingival-periodontal disease, to identify isolates and the relationship with Candida spp. The study included eighty-two patients, aged 18-70 years with periodontal disease and at least two sites with probing depth > or = 3 mm. Participants' data were evaluated individually. Subgingival biofilm samples were obtained using Gracey curettes 7/8, after supragingival biofilm removal, and a sample from the oral cavity (buccal mucosa, tongue and cheek mucosa) by sterile swab. Of all the patients studied, 42.7% exhibited Staphylococcus spp in the periodontal pocket and 69.5% in the oral cavity while 25.6% exhibited Candida spp in the periodontal pocket and 42.7% in the oral cavity. However, 13.4% had both microorganisms in the periodontal pocket and 36.6% in the oral cavity. The prevalence of Staphylococcus aureus was 13.4% in the periodontal pocket and 15.8% in the oral cavity. Candida albicans was the most prevalent yeast in the periodontal pocket (76.2%) and in the oral cavity (63.0%).

Prevalence of Staphylococcus spp and Candida spp in the oral cavity and periodontal pockets of periodontal disease patients

The oral cavity can act as a reservoir of certain pathogens that can cause systemic infections. The periodontal pocket is an ecological niche appropriate for hosting microorganisms that could act as opportunistic pathogens. The ability of Staphylococcus spp and Candida spp to form a biofilm and live within certain niches allows them to develop mechanisms that increase persistence, such as the evasion of host defenses and antibiotic efficacy. These microorganisms can easily be or become resistant to antibiotics and lead to superinfection. The aims of this study were to assess the presence of Staphylococcus aureus and Staphylococcus spp in biofilm in subgingival plaque and oral cavity of individuals with gingival-periodontal disease, to identify isolates and the relationship with Candida spp. The study included eighty-two patients, aged 18-70 years with periodontal disease and at least two sites with probing depth ≥3 mm. Participants’ data were evaluated individually. Subgingival biofilm samples were obtained using Gracey curettes 7/8, after supragingival biofilm removal, and a sample from the oral cavity (buccal mucosa, tongue and cheek mucosa) by sterile swab. Of all the patients studied, 42.7% exhibited Staphylococcus spp in the periodontal pocket and 69.5% in the oral cavity while 25.6% exhibited Candida spp in the periodontal pocket and 42.7% in the oral cavity. However, 13.4% had both microorganisms in the periodontal pocket and 36.6% in the oral cavity. The prevalence of Staphylococcus aureus was 13.4% in the periodontal pocket and 15.8% in the oral cavity. Candida albicans was the most prevalent yeast in the periodontal pocket (76.2%) and in the oral cavity (63.0%).

La cavidad bucal puede actuar como reservorio de ciertos patógenos que pueden producir infecciones sistémicas. La bolsa periodontal es un nicho ecológico propicio para albergar microorganismos que podrian actuar como patógenos oportunistas. La posibilidad que Staphylococcus spp y Candida spp puedan formar un biofilm o biopelícula y vivir dentro de ciertos nichos les permite a estos microorganismos desarrollar ciertos mecanismos que aumentan su persistencia como ser la capacidad de eludir las defensas del huésped y la terapia antimicrobiana. Estos microorganismos pueden ser o fácilmente convertirse en resistentes a los antibióticos y dar origen a una supeinfección. El propósito de este estudio fue evaluar la presencia de Staphylococcus aureus y Staphylococcus spp en biofilm placa subgingival y en cavidad oral en sujetos con enfermedad gingivoperiodontal, identificar los microorganismos aislados y su relación con la portación de Candida spp. El estudio incluyo ochenta y dos pacientes, de edades entre 18 a 70 anos de edad, con enfermedad periodontal, y al menos dos sitios con la profundidad de sondaje ≥ 3 mm. Se evaluaron los datos individuales. Las muestras de biofilm subgingival fueron obtenidas con cureta tipo Gracey 7/8, previa remoción del biofilm supragingival y una muestra de cavidad oral (mucosa, lengua y carrillo) mediante hisopo estéril. Del total de los pacientes estudiados, el 42,7% mostraron Staphylococcus spp en la bolsa y el 69,5% en la cavidad oral, mientras que 25,6% mostraron Candida spp en la bolsa y 42,7% en la cavidad oral. Sin embargo, el 13,4% tenían ambos microorganismos en la bolsa y el 36,6% en la cavidad oral. La prevalencia de Staphylococcus aureus en la bolsa periodontal fue de 13,4% y 15,8% en la cavidad oral. Candida albicans fue la levadura más frecuente en la bolsa periodontal (76,2%) y en la cavidad oral (63,0%).

Subgingival distribution of yeast and their antifungal susceptibility in immunocompetent subjects with and without dental devices.

Yeasts colonize the subgingival biofilm, which becomes a reservoir that favors their reproduction. The purpose of the present work was to determine the prevalence of yeasts of the Candida genus in the subgingival biofilm of gingivoperiodontal disease patients, including users and non-users of dental devices, and their susceptibility to fluconazole and voriconazole. Samples of subgingival pockets of immunocompetent nonsmokers showing gingivitis and periodontitis were inoculated in a differential chromogenic medium. Sixty three percent of subjects used dental devices. Yeasts were identified and susceptibility to fluconazole and voriconazole was tested following CLSI M44-A standards. The prevalence of yeasts in the subgingival biofilm was 40% CI 95% (30.5-50.3); 10% were patients who did not use dental appliances. The most frequently observed yeasts were C. albicans, and C. parapsilosis, C. dubliniensis, C. tropicalis and C. guilliermondii. Only C. dubliniensis and C. guilliermondii showed resistance to azoles. The use of dental devices significantly increased the prevalence of yeasts in periodontal pockets inpatients presenting gingivitis. It is noteworthy that non albicans Candida species, such as C. dubliniensis and C. guilliermondii, considered emerging species, which have a diminished susceptibility to antifungal agents were found in the crevicular fluid of immunocompetent patients.

Subgingival distribution of yeast and their antifungal susceptibility in immunocompetent subjects with and without dental devices

Las levaduras del genero Candida colonizan el biofilm subgingival.Su hallazgo constituye un reservorio favorable para su multiplicación. El propósito de éste trabajo fue investigar la presencia de levaduras del género Candida en el biofilm subgingivalde individuos con enfermedad gingivoperiodontal a fin de establecer la prevalencia de especies y los perfiles desusceptibilidad a fluconazol y voriconazol de las mismas. Se obtuvieron muestras del biofilm subgingival en cien pacientes inmunocompetentes, no fumadores, con salud gingivoperiodontal, gingivitis y periodontitis, con y sin aparatologíabucal. Las muestras se sembraron en medio cromogénico diferencial y las levaduras aisladas se identificaronmediante micromorfología y pruebas bioquímicas. Los estudios de sensibilidad a fluconazol y voriconazol se realizaron según las normas CLSI M44-A. La prevalencia de levadurasen el biofilm subgingival fue del 40 por ciento IC95 por ciento (30.5-50.3) siendo el 10 por ciento y 30 por ciento la frecuencia de las mismas para los pacientes sin y con aparatología bucal respectivamente.C. albicans fue la levadura más frecuente. Encontramos otras especies como C. parapsilosis, C. dubliniensis, C. tropicalis, C. guilliermondii y C. sake. Solo se observó resistencia a los azoles en C. dubliniensis y C. guilliermondii. El tratamiento con aparatología bucal incrementó la prevalencia de levadurasen bolsa periodontal en forma significativa. Es importante destacar la presencia en el fluido subgingival de especies de Candida no albicans consideradas emergentes y con sensibilidad disminuida a los antifúngicos como C. dubliniensisy C. guilliermondii

Yeasts colonize the subgingival biofilm, which becomes a reservoir that favors their reproduction. The purpose of the present work was to determine the prevalence of yeasts of the Candida genus in the subgingival biofilm of gingivoperiodontal disease patients, including users and non-users of dental devices, and their susceptibility to fluconazole and voriconazole. Samples of subgingival pockets of immunocompetent nonsmokers showing gingivitis and periodontitis were inoculated in a differential chromogenic medium. Sixty three percent of subjects used dental devices. Yeasts were identified and susceptibility to fluconazole and voriconazole was tested following CLSI M44-A standards. The prevalence of yeasts in the subgingival biofilm was 40% CI 95% (30.5-50.3); 10% were patients who did not use dental appliances. The most frequently observed yeasts were C. albicans, and C. parapsilosis, C. dubliniensis, C. tropicalis and C. guilliermondii. Only C. dubliniensis and C. guilliermondii showed resistance to azoles. The use of dental devices significantly increased the prevalence of yeasts in periodontal pockets inpatients presenting gingivitis. It is noteworthy that non albicans Candida species, such as C. dubliniensis and C. guilliermondii, considered emerging species, which have a diminished susceptibility to antifungal agents were found in the crevicular fluid of immunocompetent patients.

Subgingival distribution of yeast and their antifungal susceptibility in immunocompetent subjects with and without dental devices

Las levaduras del genero Candida colonizan el biofilm subgingival.Su hallazgo constituye un reservorio favorable para su multiplicación. El propósito de éste trabajo fue investigar la presencia de levaduras del género Candida en el biofilm subgingivalde individuos con enfermedad gingivoperiodontal a fin de establecer la prevalencia de especies y los perfiles desusceptibilidad a fluconazol y voriconazol de las mismas. Se obtuvieron muestras del biofilm subgingival en cien pacientes inmunocompetentes, no fumadores, con salud gingivoperiodontal, gingivitis y periodontitis, con y sin aparatologíabucal. Las muestras se sembraron en medio cromogénico diferencial y las levaduras aisladas se identificaronmediante micromorfología y pruebas bioquímicas. Los estudios de sensibilidad a fluconazol y voriconazol se realizaron según las normas CLSI M44-A. La prevalencia de levadurasen el biofilm subgingival fue del 40 por ciento IC95 por ciento (30.5-50.3) siendo el 10 por ciento y 30 por ciento la frecuencia de las mismas para los pacientes sin y con aparatología bucal respectivamente.C. albicans fue la levadura más frecuente. Encontramos otras especies como C. parapsilosis, C. dubliniensis, C. tropicalis, C. guilliermondii y C. sake. Solo se observó resistencia a los azoles en C. dubliniensis y C. guilliermondii. El tratamiento con aparatología bucal incrementó la prevalencia de levadurasen bolsa periodontal en forma significativa. Es importante destacar la presencia en el fluido subgingival de especies de Candida no albicans consideradas emergentes y con sensibilidad disminuida a los antifúngicos como C. dubliniensisy C. guilliermondii (AU)

Yeasts colonize the subgingival biofilm, which becomes a reservoir that favors their reproduction. The purpose of the present work was to determine the prevalence of yeasts of the Candida genus in the subgingival biofilm of gingivoperiodontal disease patients, including users and non-users of dental devices, and their susceptibility to fluconazole and voriconazole. Samples of subgingival pockets of immunocompetent nonsmokers showing gingivitis and periodontitis were inoculated in a differential chromogenic medium. Sixty three percent of subjects used dental devices. Yeasts were identified and susceptibility to fluconazole and voriconazole was tested following CLSI M44-A standards. The prevalence of yeasts in the subgingival biofilm was 40% CI 95% (30.5-50.3); 10% were patients who did not use dental appliances. The most frequently observed yeasts were C. albicans, and C. parapsilosis, C. dubliniensis, C. tropicalis and C. guilliermondii. Only C. dubliniensis and C. guilliermondii showed resistance to azoles. The use of dental devices significantly increased the prevalence of yeasts in periodontal pockets inpatients presenting gingivitis. It is noteworthy that non albicans Candida species, such as C. dubliniensis and C. guilliermondii, considered emerging species, which have a diminished susceptibility to antifungal agents were found in the crevicular fluid of immunocompetent patients.(AU)

Viable spore counts in biological controls pre-sterilization.

The aim of the present study was to evaluate the total count of viable spores in standardized inoculated carriers pre-sterilization. Samples of "Bacterial Spore Sterilization Strip" (R Biological Laboratories) (well before their expiry date) were divided into Group A (B. subtilis) and Group B (B. stearothermophylus). Twenty-four strips were tested per group. The strips were minced in groups of three, placed in chilled sterile water and vortexed for 5 minutes to obtain a homogenous suspension. Ten ml of the homogenous suspension were transferred to two sterile jars, i.e. one jar per group. The samples were then heated in a water bath at 95 degrees C (Group A) or 80 degrees C (Group B) for 15 minutes and cooled rapidly in an ice bath at 0- 4 degrees C during 15 minutes. Successive dilutions were performed until a final aliquot of 30 to 300 colony-forming units (CFU) was obtained. The inoculums were placed in Petri dishes with culture medium (soy extract, casein agar adapted for spores, melted and cooled to 45-50 degrees C) and incubated at 55 degrees C or 37 degrees C. Statistical analysis of the data was performed. A larger number of spores were found at 48 hours than at 24 hours. However, this finding did not hold true for all the groups. The present results show that monitoring viable spores pre-sterilization would guarantee the accuracy of the data. Total spore counts must be within 50 and 300% of the number of spores indicated in the biological control. The procedure is essential to guarantee the efficacy of the biological control.

Viable spore counts in biological controls pre-sterilization.

The aim of the present study was to evaluate the total count of viable spores in standardized inoculated carriers pre-sterilization. Samples of [quot ]Bacterial Spore Sterilization Strip[quot ] (R Biological Laboratories) (well before their expiry date) were divided into Group A (B. subtilis) and Group B (B. stearothermophylus). Twenty-four strips were tested per group. The strips were minced in groups of three, placed in chilled sterile water and vortexed for 5 minutes to obtain a homogenous suspension. Ten ml of the homogenous suspension were transferred to two sterile jars, i.e. one jar per group. The samples were then heated in a water bath at 95 degrees C (Group A) or 80 degrees C (Group B) for 15 minutes and cooled rapidly in an ice bath at 0- 4 degrees C during 15 minutes. Successive dilutions were performed until a final aliquot of 30 to 300 colony-forming units (CFU) was obtained. The inoculums were placed in Petri dishes with culture medium (soy extract, casein agar adapted for spores, melted and cooled to 45-50 degrees C) and incubated at 55 degrees C or 37 degrees C. Statistical analysis of the data was performed. A larger number of spores were found at 48 hours than at 24 hours. However, this finding did not hold true for all the groups. The present results show that monitoring viable spores pre-sterilization would guarantee the accuracy of the data. Total spore counts must be within 50 and 300

of the number of spores indicated in the biological control. The procedure is essential to guarantee the efficacy of the biological control.

Long-term sterility of orthodontic-surgical appliances.

The aim of this study was to evaluate the long-term sterility of new dental appliances according to the non rigid wrapping employed and assess the effectiveness of sterilization in a steam autoclave at 134 degrees for 20 minutes using physical, chemical, and biological indicators. All the experimental (E) samples and the control samples (C) were assigned to one of three groups according to the type of packaging: paper bag (E1), paper/plastic pouch (E2), nylon tubing bag (E3). Each bag contained standardized orthodontic wires and brackets and sterility indicators. The samples were evaluated at the following experimental times: immediately, and 6, 12, 24 and 30 months post-sterilization. The samples were analyzed under aerobic and anaerobic conditions in keeping with the protocol currently in use at the Department of Microbiology, School of Dentistry, University of Buenos Aires. The group of control, non-sterilized samples (C1, C2, C3) were analyzed prior to the onset of the study, and were found to be contaminated. None of the sterilized samples in any of the three experimental groups evidenced contamination at any of the experimental times. The results showed that, under the present conditions, the packages and orthodontic appliances remained sterile for 30 months. These results show the importance of controlling sterility and the storage conditions over time for all the orthodontic/surgical appliances used in invasive treatments.

Long-term sterility of orthodontic-surgical appliances.

The aim of this study was to evaluate the long-term sterility of new dental appliances according to the non rigid wrapping employed and assess the effectiveness of sterilization in a steam autoclave at 134 degrees for 20 minutes using physical, chemical, and biological indicators. All the experimental (E) samples and the control samples (C) were assigned to one of three groups according to the type of packaging: paper bag (E1), paper/plastic pouch (E2), nylon tubing bag (E3). Each bag contained standardized orthodontic wires and brackets and sterility indicators. The samples were evaluated at the following experimental times: immediately, and 6, 12, 24 and 30 months post-sterilization. The samples were analyzed under aerobic and anaerobic conditions in keeping with the protocol currently in use at the Department of Microbiology, School of Dentistry, University of Buenos Aires. The group of control, non-sterilized samples (C1, C2, C3) were analyzed prior to the onset of the study, and were found to be contaminated. None of the sterilized samples in any of the three experimental groups evidenced contamination at any of the experimental times. The results showed that, under the present conditions, the packages and orthodontic appliances remained sterile for 30 months. These results show the importance of controlling sterility and the storage conditions over time for all the orthodontic/surgical appliances used in invasive treatments.