Biofilm susceptibility to antimicrobials

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Biofilm susceptibility to antimicrobials

P Gilbert, J Das, and I Foley

Department of Pharmacy, University of Manchester, England.

Microbial biofilms, where organisms are intimately associated with each other and a solid substratum through binding and inclusion within an exopolymer matrix, are widely distributed in nature and disease. In the mouth, multispecies biofilms are associated not only with dental plaque and tooth decay but also with soft tissues of the buccal cavity and with most forms of periodontal disease. Organization of micro-organisms within biofilms confers, on the component species, properties which are not evident with the individual species grown independently or as planktonic populations in liquid media. While many of these properties relate to the establishment of functional, mixed-species consortia within the exopolymeric matrices, others relate to the establishment of physico-chemical gradients, within the biofilm, that modify the metabolism of the component cells. A consequence of biofilm growth that has profound implications for their control in the environment and in medicine is a markedly enhanced resistance to chemical antimicrobial agents and antibiotics. Mechanisms associated with such resistance in biofilms will form the substance of the present review. While some aspects of biofilm resistance are yet only poorly understood, the dominant mechanisms are thought to be related to: (i) modified nutrient environments and suppression of growth rate within the biofilm; (ii) direct interactions between the exopolymer matrices, and their constituents, and antimicrobials, affecting diffusion and availability; and (iii) the development of biofilm/attachment-specific phenotypes.

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				N. Takahashi, K. Ishihara, T. Kato, and K. Okuda Susceptibility of Actinobacillus actinomycetemcomitans to six antibiotics decreases as biofilm matures J. Antimicrob. Chemother., January 1, 2007; 59(1): 59 - 65. [Abstract] [Full Text] [PDF]

				J. J. H. Oosterhof, K. J. D. A. Buijssen, H. J. Busscher, B. F. A. M. van der Laan, and H. C. van der Mei Effects of quaternary ammonium silane coatings on mixed fungal and bacterial biofilms on tracheoesophageal shunt prostheses. Appl. Envir. Microbiol., May 1, 2006; 72(5): 3673 - 3677. [Abstract] [Full Text] [PDF]

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				Y. Chabrier-Rosello, T. H. Foster, N. Perez-Nazario, S. Mitra, and C. G. Haidaris Sensitivity of Candida albicans Germ Tubes and Biofilms to Photofrin-Mediated Phototoxicity Antimicrob. Agents Chemother., October 1, 2005; 49(10): 4288 - 4295. [Abstract] [Full Text] [PDF]

				A A Ramadhan and E Hegedus Biofilm formation and esp gene carriage in enterococci J. Clin. Pathol., July 1, 2005; 58(7): 685 - 686. [Abstract] [Full Text] [PDF]

				D. Steinberg, M. Feldman, I. Ofek, and E. I. Weiss Effect of a high-molecular-weight component of cranberry on constituents of dental biofilm J. Antimicrob. Chemother., July 1, 2004; 54(1): 86 - 89. [Abstract] [Full Text] [PDF]

				C. K. Hope and M. Wilson Analysis of the Effects of Chlorhexidine on Oral Biofilm Vitality and Structure Based on Viability Profiling and an Indicator of Membrane Integrity Antimicrob. Agents Chemother., May 1, 2004; 48(5): 1461 - 1468. [Abstract] [Full Text] [PDF]

				H. Lamfon, S. R. Porter, M. McCullough, and J. Pratten Susceptibility of Candida albicans biofilms grown in a constant depth film fermentor to chlorhexidine, fluconazole and miconazole: a longitudinal study J. Antimicrob. Chemother., February 1, 2004; 53(2): 383 - 385. [Abstract] [Full Text] [PDF]

				A.-C. Olofsson, M. Hermansson, and H. Elwing N-Acetyl-L-Cysteine Affects Growth, Extracellular Polysaccharide Production, and Bacterial Biofilm Formation on Solid Surfaces Appl. Envir. Microbiol., August 1, 2003; 69(8): 4814 - 4822. [Abstract] [Full Text] [PDF]

				D. J. Wozniak, T. J. O. Wyckoff, M. Starkey, R. Keyser, P. Azadi, G. A. O'Toole, and M. R. Parsek Alginate is not a significant component of the extracellular polysaccharide matrix of PA14 and PAO1 Pseudomonas aeruginosa biofilms PNAS, June 24, 2003; 100(13): 7907 - 7912. [Abstract] [Full Text] [PDF]

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				G. Ramage, K. VandeWalle, S. P. Bachmann, B. L. Wickes, and J. L. Lopez-Ribot In Vitro Pharmacodynamic Properties of Three Antifungal Agents against Preformed Candida albicans Biofilms Determined by Time-Kill Studies Antimicrob. Agents Chemother., November 1, 2002; 46(11): 3634 - 3636. [Abstract] [Full Text] [PDF]

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				A. L. Spoering and K. Lewis Biofilms and Planktonic Cells of Pseudomonas aeruginosa Have Similar Resistance to Killing by Antimicrobials J. Bacteriol., December 1, 2001; 183(23): 6746 - 6751. [Abstract] [Full Text] [PDF]

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				E. Marco-Noales, M. Milan, B. Fouz, E. Sanjuan, and C. Amaro Transmission to Eels, Portals of Entry, and Putative Reservoirs of Vibrio vulnificus Serovar E (Biotype 2) Appl. Envir. Microbiol., October 1, 2001; 67(10): 4717 - 4725. [Abstract] [Full Text]

				J. Chandra, D. M. Kuhn, P. K. Mukherjee, L. L. Hoyer, T. McCormick, and M. A. Ghannoum Biofilm Formation by the Fungal Pathogen Candida albicans: Development, Architecture, and Drug Resistance J. Bacteriol., September 15, 2001; 183(18): 5385 - 5394. [Abstract] [Full Text] [PDF]

				M. Hentzer, G. M. Teitzel, G. J. Balzer, A. Heydorn, S. Molin, M. Givskov, and M. R. Parsek Alginate Overproduction Affects Pseudomonas aeruginosa Biofilm Structure and Function J. Bacteriol., September 15, 2001; 183(18): 5395 - 5401. [Abstract] [Full Text] [PDF]

				G. Ramage, K. Vande Walle, B. L. Wickes, and J. L. Lopez-Ribot Standardized Method for In Vitro Antifungal Susceptibility Testing of Candida albicans Biofilms Antimicrob. Agents Chemother., September 1, 2001; 45(9): 2475 - 2479. [Abstract] [Full Text] [PDF]

				K. Lewis Riddle of Biofilm Resistance Antimicrob. Agents Chemother., April 1, 2001; 45(4): 999 - 1007. [Full Text]

				M. E. Davey and G. A. O'toole Microbial Biofilms: from Ecology to Molecular Genetics Microbiol. Mol. Biol. Rev., December 1, 2000; 64(4): 847 - 867. [Abstract] [Full Text] [PDF]

				J. T. Walker, D. J. Bradshaw, A. M. Bennett, M. R. Fulford, M. V. Martin, and P. D. Marsh Microbial Biofilm Formation and Contamination of Dental-Unit Water Systems in General Dental Practice Appl. Envir. Microbiol., August 1, 2000; 66(8): 3363 - 3367. [Abstract] [Full Text]

				P. S. Stewart, F. Roe, J. Rayner, J. G. Elkins, Z. Lewandowski, U. A. Ochsner, and D. J. Hassett Effect of Catalase on Hydrogen Peroxide Penetration into Pseudomonas aeruginosa Biofilms Appl. Envir. Microbiol., February 1, 2000; 66(2): 836 - 838. [Abstract] [Full Text]

				W. R. Kirkpatrick, J. L. Lopez-Ribot, R. K. Mcatee, and T. F. Patterson Growth Competition between Candida dubliniensis and Candida albicans under Broth and Biofilm Growing Conditions J. Clin. Microbiol., February 1, 2000; 38(2): 902 - 904. [Abstract] [Full Text]

				J. L. Adams and R. J. C. McLean Impact of rpoS Deletion on Escherichia coli Biofilms Appl. Envir. Microbiol., September 1, 1999; 65(9): 4285 - 4287. [Abstract] [Full Text]