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Medical Implications of Biofilms
First published in 2003, this book presents advances in prevention and treatment of biofilm-related diseases to clinicians and researchers.
Michael Wilson (Edited by), Deirdre Devine (Edited by)
9781107403451, Cambridge University Press
Paperback / softback, published 15 September 2011
338 pages
22.9 x 15.2 x 1.9 cm, 0.5 kg
Review of the hardback: '… a valuable reference both for biofilm aficionados and anyone, including final-year undergraduates, with an interest in infectious diseases.' Microbiology Today
Human tissues often support large, complex microbial communities growing as biofilms that can cause a variety of infections. As a result of an increased use of implanted medical devices, the incidence of these biofilm-associated diseases is increasing: the non-shedding surfaces of these devices provide ideal substrata for colonisation by biofilm-forming microbes. The consequences of this mode of growth are far-reaching. As microbes in biofilms exhibit increased tolerance towards antimicrobial agents and decreased susceptibility to host defence systems, biofilm-associated diseases are becoming increasingly difficult to treat. Not surprisingly, therefore, interest in biofilms has increased dramatically. The application of microscopic and molecular techniques has revolutionised our understanding of biofilm structure, composition, organisation, and activities, resulting in important advances in the prevention and treatment of biofilm-related diseases. The purpose of this book, which was first published in 2003, is to bring these advances to the attention of clinicians and medical researchers.
Part I. Introductory Chapters: 1. Biofilm-dependent regulation of gene expression P. LeJeune
2. Quorum sensing and microbial biofilms T. R. de Kievit
3. Antimicrobial agents and biofilms M. R. Brown
Part II. Biofilms on Prosthetic Devices: 4. Animal models of orthopaedic implant infection Y. H. An
5. Intravascular-catheter-related infections H. A. Hanna
6. Molecular basis of biofilm formation by staphylococcus epidermidis C. Heilmann
7. Biofilm complications of urinary tract devices S. P. Gorman
Part III. Oral Biofilms: 8. Novel microscopic methods to study the structure and metabolism of oral biofilms D. Bradshaw
9. Oral streptococcal genes that encode biofilm formation C. Y. Loo
10. Gene expression in oral biofilms R. A. Burne
Part IV. Biofilms on Shedding Surfaces: 11. Dissection of the genetic pathway leading to multicellular behaviour in salmonella enterica serotype typhimurium and other enterobacteriaceae U. Romling
12. Bacterial growth on mucosal surfaces and biofilms in the large bowel G. T. Macfarlane
13. Pseudomonas aeruginosa biofilms in lung infections K. K. Jefferson.
Subject Areas: Microbiology [non-medical PSG], Medical microbiology & virology [MMFM]