Abstract
The combination of a conventional optical microscope with a specially designed glass flow cell was used to visualize ‘in situ’ biofilms formed on opaque thin biomaterials through a simple non-invasive way (optical microscopy of thin biofilms, OMTB). Comparisons of OMTB with scanning electron microscopy (SEM) images were made. Thin metallic dental biomaterials were used as substrata. They were immersed in a synthetic saliva and in a modified Mitis–Salivarius medium inoculated with a consortium of oral microorganisms. To study the effect of bacterial motility, Pseudomonas fluorescens cultures were also used. The processes which give rise to the formation of the biofilm were monitored through OMTB. Biofilm microstructures like pores, water channels, streamers and chains of Streptococci, attached to the surface or floating in the viscous interfacial environment, could be distinguished. Thickness and roughness of the biofilms formed on thin substrata could also be evaluated. Distortions introduced by pretreatments carried out to prepare biological materials for SEM observations could be detected by comparing OMTB and SEM images. SEM images (obtained at high magnification but ex situ, not in real time and with pretreatment of the samples) and OMTB images (obtained in situ, without pretreatments, in real time but at low magnification) in combination provided complementary information to study biofilm processes on thin substrata.
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References
Azzaroni, O., Schilardi, P.L., Salvarezza, R.C. & Arvia, A.J. 1999 Smoothening mechanism of thiourea on silver electrodeposition. Real time imaging of the growth front evolution. Langmuir 15, 1508–1514.
Baron, C., Marschoff, C.M. & Aragon, P.J. 1978 Corrosion rates of dental amalgam in Ringer solutions and artificial saliva. Journal of Life Sciences 8, 105–110.
Beech, I.B., Sunny Cheung, C.W., Barrie Johnson, D. & Smith, J.R. 1996 Comparative studies of bacterial biofilms on steel surfaces using atomic force microscopy and environmental scanning electron microscopy. Biofouling 10, 65–77.
Beyenal, H., Tanyolac, A. & Lewandowski, Z. 1998 Measurement of local effective diffusivity in heterogeneous biofilms. Water Science and Technology 38, 171–178.
Cortizo, M.C. & de Mele M.F.L. 2000 Preliminary characterization of thin biofilms by optical microscopy. Biofouling 15, 253–260.
Costerton, J.W., Lewandowski, Z., Caldwell, D.E., Korber, D.R. & Lappin-Scott, H.M. 1995 Microbial films. Annual Review of Microbiology 49, 711–745.
Costerton, J.W., Stewart, P.S. & Greenberg, E.P. 1999 Bacterial biofilms: a common cause of persistent infections. Science 284, 1318–1322.
Davies, D.G., Parsek, M.R., Pearson, J.P., Iglewski, B.H., Costerton, J.W. & Greenberg, E.P. 1998 The involvement of cell-to-cell signals in the development of a bacterial biofilm. Science 280, 295–298.
de Beer, D., Stoodley, P., Roe, F. & Lewandowski, Z. 1994 Effect of biofilm structures on oxygen distribution and mass transport. Biotechnology and Bioengineering 43, 1131–1138.
Donlan, R.M. & Costerton, J.W. 2002 Biofilms: survival mechanisms of clinically relevant microorganisms. Clinical Microbiology Reviews 15, 167–193.
Huang, C.-T., Yu, P., McFeters, G.A. & Stewart, P.S. 1995 Nonuniform spatial patterns of respiratory activity within biofilms during disinfection. Applied and Environmental Microbiology 61, 2262.
Lewandowski, Z. 1998 Structures and function of bacterial biofilms. Corrosion'98 (NACE International, Houston, TX) Paper No. 296.
De Mele, M.F.L. & Cortizo, M.C. 2000 Biodeterioration of dental materials. Influence of bacterial adherence. Biofouling 14, 305–316.
Pasmore, M., Todd, P.W., Pfiefer, B., Rodhes, M. & Bowman, C. 2002 Effect of polymer surface properties on the reversibility of attachment of Pseudomonas aeruginosa in the early stages of biofilm development. Biofouling 18, 65–71.
Rasmussen, K. & Lewandowski, Z. 1998 Microelectrode measurements of local mass transport rates in heterogeneous biofilms. Biotechnology and Bioenergetics 59, 302–309.
Rees, D.A., Morris, E.R., Thom, D. & Madden, J.K. 1982 Shapes and interactions of carbohydrate chains. In The Polysaccharides, vol. 1, Aspinall, G.O. ed. pp. 195-290. ISBN 0-12-065601-9.
Scheuerman, T.R., Camper, A.K. & Hamilton, M.A. 1998 Effects of substratum topography on bacterial adhesion. Journal of Colloid and Interface Science 208, 23–33.
Schilardi, P.L., Azzaroni, O., Salvarezza, R.C. & Arvia, A.J. 1999 The validity of Kardar-Parisi, Zhang Equation in the asymptotic limit of metal electrodeposition. Physical Reviews 859, 4638–4641.
Schmidt, C., Kaspar, D., Sarkar, M., Claes, L.E. & Ignatius, A.A. 2002 A scanning electron microscopy study of human osteoblast morphology on five orthopedic metals. Journal of Biomedical Materials Research 63, 252–261.
Singleton, S., Treloar, R., Warren, P., Watson, G.K., Hodgson, R. & Allison, C. 1997 Methods for microscope characterisation of oral biofilms: analysis of colonisation, microstructure and molecular transport phenomena. Advanced Dental Research 11, 133–149.
Stewart, P.S., Mcfeters, G.A. & Huang, C. 2000 Biofilm control by antimicrobial agents. In Biofilms II: Process Analysis and Applications, Bryers, D. ed. pp. 373-405. ISBN 0471-29656-2.
Stoodley, P., Lewandowski, Z., Boyle, J.D. & Lappin-Scott, H.M. 1998 Oscillation characteristics of biofilm streamers in turbulent flowing water as related to drag and pressure drop. Biotechnology and Bioengineering 57, 536–544.
Stoodley, P., Sauer, K., Davies, D.G. & Costerton, W. 2002 Biofilms as complex differentiated communities. Annual Review of Microbiology 56, 187–209.
Wattanakaroon, W. & Stewart, P.S. 2000 Electrical enhancement of Streptococcus gordonii biofilm killing by gentamicin. Archives of Oral Biology 45, 167–171.
Werner, L., Legeais, J.-M., Nagel, M. & Rerard, G. 1999 Neutral red assay of the cytotoxicity of fluorocarbon coated polymethylmethacrylate intraocular lenses in vitro. Journal of Biomedical Materials Research 48, 814–819.
Yang, X., Beyenal H., Harkin, G. & Lewandowski, Z. 2000 Quantifying biofilm structure using image analysis. Journal of Microbiological Methods 39, 109–119.
Zelver, N., Roe, F.L. & Characklis, W.G. 1985 Potential for monitoring fouling in the food industry. In Fouling and Cleaning in the Food Industry, Lund, D., Plett, E. & Sandu, C. eds. Madison, WI: Department of Food Science, University of Wisconsin.
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Cortizo, M., Fernández Lorenzo de Mele, M. Microstructural characteristics of thin biofilms through optical and scanning electron microscopy. World Journal of Microbiology and Biotechnology 19, 805–810 (2003). https://doi.org/10.1023/A:1026069307547
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DOI: https://doi.org/10.1023/A:1026069307547