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Culture Negative Orthopedic Biofilm Infections: Springer Series on Biofilms, cartea 7

Editat de Garth D. Ehrlich, Patrick J. DeMeo, J. William Costerton, Heinz Winkler
en Limba Engleză Paperback – 29 ian 2015
During the recent transition between acute diseases caused by swarms of single planktonic bacteria, and chronic infections caused by bacteria growing in slime-enclosed biofilms, a general clinical consensus has emerged that pathologies with bacterial etiologies are frequently culture negative. Because biofilm infections now affect 17 million Americans per year (killing approximately 450,000), the suggestion that these common and lethal infections regularly go unnoticed by the only FDA-approved method for their detection and characterization is a matter of urgent concern. Biologically, we would expect that planktonic bacterial cells would colonize any new surface, including the surface of an agar plate, while the specialized sessile cells of a biofilm community would have no such proclivity. In the study of biofilm diseases ranging from otitis media to prostatitis, it was found that direct microscopy and DNA- and RNA-based molecular methods regularly document the presence of living bacteria in tissues and samples that are culture negative. The editors selected orthopedic biofilm infections as the subject of this book because these infections occur against a background of microbiological sterility in which modern molecular methods would be expected to find bacterial DNA, RNA-based microscopic methods would be expected to locate bacterial cells, and cultures would be negative. Moreover, in Orthopedics we find an already biofilm-adapted surgical group in which current strategies are based on the meticulous removal of compromised tissues, antibiotic options as based on high biofilm-killing local doses, and there are practical bedside strategies for dealing with biofilm infections. So here is where the new paradigm of biofilm infection meets the equally new paradigm of the culture negativity of biofilms, and this volume presents a conceptual synthesis that may soon combine the most effective molecular methods for the detection and identification of bacteria witha surgical discipline that is ready to help patients.
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Specificații

ISBN-13: 9783642446832
ISBN-10: 3642446833
Pagini: 146
Ilustrații: X, 146 p.
Dimensiuni: 155 x 235 x 8 mm
Greutate: 0.23 kg
Ediția:2012
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Springer Series on Biofilms

Locul publicării:Berlin, Heidelberg, Germany

Public țintă

Research

Cuprins

The Problem of Culture Negative Infections.- Culture Negative Infections in Orthopaedic Surgery.- Improved Diagnosis of Biofilm Infections Using Various Molecular Methods.- Improved Outcomes via Integrated Molecular Diagnostics and Biofilm Targeted Therapy.- Immunological Methods for Staphylococcus aureus Infection Diagnosis and Prevention.- Diagnosing Periprosthetic Joint Infections : Cultures, Molecular Markers, and the Ibis technology.- Infections Associated with Severe Open Tibia Fractures.- Second Generation Molecular Diagnostics and Strategies for Preventing Periprosthetic Joint Infections.- Treatment of Orthopedic Infections : Addressing the Biofilm Issue.- Valete : Towards a New Paradigm in the Diagnosis and Treatment of Orthopedic Infections.

Textul de pe ultima copertă

During the recent transition between acute diseases caused by swarms of single planktonic bacteria, and chronic infections caused by bacteria growing in slime-enclosed biofilms, a general clinical consensus has emerged that pathologies with bacterial etiologies are frequently culture negative. Because biofilm infections now affect 17 million Americans per year (killing approximately 450,000), the suggestion that these common and lethal infections regularly go unnoticed by the only FDA-approved method for their detection and characterization is a matter of urgent concern. Biologically, we would expect that planktonic bacterial cells would colonize any new surface, including the surface of an agar plate, while the specialized sessile cells of a biofilm community would have no such proclivity. In the study of biofilm diseases ranging from otitis media to prostatitis, it was found that direct microscopy and DNA- and RNA-based molecular methods regularly document the presence of living bacteria in tissues and samples that are culture negative. The editors selected orthopedic biofilm infections as the subject of this book because these infections occur against a background of microbiological sterility in which modern molecular methods would be expected to find bacterial DNA, RNA-based microscopic methods would be expected to locate bacterial cells, and cultures would be negative. Moreover, in Orthopedics we find an already biofilm-adapted surgical group in which current strategies are based on the meticulous removal of compromised tissues, antibiotic options as based on high biofilm-killing local doses, and there are practical bedside strategies for dealing with biofilm infections. So here is where the new paradigm of biofilm infection meets the equally new paradigm of the culture negativity of biofilms, and this volume presents a conceptual synthesis that may soon combine the most effective molecular methods for the detection and identification of bacteria witha surgical discipline that is ready to help patients. 

Caracteristici

Introduces the best diagnostic technologies that modern microbiology can provide Two of the editors (Ehrlich and Costerton) are involved in the development of an automated DNA-based system for the identification of bacteria and fungi in clinical specimens, by Abbott Healthcare Constitutes a cogent statement of the reasons for the replacement of traditional culture methods, with DNA-based systems, in all medical specialities Definitive source of the concepts and the preliminary data on which this huge paradigm shift will be based Includes supplementary material: sn.pub/extras