Formação de biofilme em diferentes concentrações de oxigênio
Abstract
Introdução: A placa dental é um biofilme verdadeiro, onde diferentes espécies bacterianas se aderem, formando uma comunidade microbiana complexa. A evolução desse biofilme propicia um maior desenvolvimento de bactérias periodontopatogênicas, de acordo com o substrato disponível e concentrações de oxigênio. Objetivo: Avaliar o desenvolvimento do biofilme bacteriano in situ, em diferentes tensões de oxigênio. Materiais e métodos: Participaram do presente estudo 10 estudantes de odontologia. Foram confeccionados, em resina acrílica, 10 dispositivos intra-orais contendo 4 fragmentos de esmalte bovino. 2 fragmentos foram colocados em contato com o palato e 2 voltados ao meio ambiente bucal livre. Os dispositivos foram analisados em 24, 48, 96 e 168 horas visualmente em termos de formação de biofilme. Em 192 horas, realizou-se teste microbiológico BANA. Resultados: Os resultados quantitativos mostraram um desenvolvimento mais rápido do biofilme que estava em contato com o palato, bem como um maior recobrimento da superfície de esmalte ao final do período de análise. Nove dos 20 sítios em contato com o palato foram reagentes ao teste enzimático, na análise microbiológica. Contrariamente, nenhum sítio em contato com o meio ambiente bucal livre reagiu ao teste. Conclusões: a) O modelo proposto permite a formação de biofilme em diferentes tensões de oxigênio; b) A formação de biofilme foi mais rápida quando houve menor concentração de oxigênio; c) Bactérias BANA-positivas foram encontradas somente onde houve menor tensão de oxigênio.
UNITERMOS: biofilme; in situ; esmalte; oxigênio.
SUMMARY
Introduction: Dental plaque is a true biofilm where different bacterial species adhere, forming a complex microbial community. The evolution of this biofilm propiciates the development of periodontopathogenic bacteria, depending on the available substratum and oxigen concentration. Objective: To evaluate the development of bacterial biofilm in situ in different oxigen concentrations. Materials and methods: 10 dental students participated in the present study. 10 intra-oral devices were created, using acrylic resin, where 4 fragments of bovine enamel were disposed facing opposite directions. 2 fragments were placed touching the palate while the other 2 faced the free oral environment. The devices were analyzed after 24, 48, 96 and 168 hours of use for the visual analysis. At 192 hours, samples were taken for microbial testing by means of the BANA test. Results: The results of the quantitative analysis demonstrate a faster development of the biofilm in contact with the palate as well as a larger covering of the enamel surface at the end of the test period. 9 out of 20 fragments reacted positively to the enzymatic test, in the microbial analysis. None of the fragments in exposed to the free oral environment reacted to this test. Conclusions: a) The proposed model allows the formation of biofilms in different oxigen concentrations; b) Biofilm fomation was faster where less oxigen was available; c) BANA-positive bacteria were found only in sites with small oxigen concentration.
UNITERMS: biofilm; in situ; enamel; oxigen.
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