Implications of endotracheal tube biofilm in ventilator-associated pneumonia response: a state of concept

IntroductionBiofilm in endotracheal tubes (ETT) of ventilated patients has been suggested to play a role in the development of ventilator-associated pneumonia (VAP). Our purpose was to analyze the formation of ETT biofilm and its implication in the response and relapse of VAP.MethodsWe performed a prospective, observational study in a medical intensive care unit. Patients mechanically ventilated for more than 24 hours were consecutively included. We obtained surveillance endotracheal aspirates (ETA) twice weekly and, at extubation, ETTs were processed for microbiological assessment and scanning electron microscopy.ResultsEighty-seven percent of the patients were colonized based on ETA cultures. Biofilm was found in 95% of the ETTs. In 56% of the cases, the same microorganism grew in ETA and biofilm. In both samples the most frequent bacteria isolated were Acinetobacter baumannii and Pseudomonas aeruginosa. Nineteen percent of the patients developed VAP (N = 14), and etiology was predicted by ETA in 100% of the cases. Despite appropriate antibiotic treatment, bacteria involved in VAP were found in biofilm (50%). In this situation, microbial persistence and impaired response to treatment (treatment failure and relapse) were more frequent (100% vs 29%, P = 0.021; 57% vs 14%, P = 0.133).ConclusionsAirway bacterial colonization and biofilm formation on ETTs are early and frequent events in ventilated patients. There is microbiological continuity between airway colonization, biofilm formation and VAP development. Biofilm stands as a pathogenic mechanism for microbial persistence, and impaired response to treatment in VAP.

[1]  J. Rello,et al.  Recurrent Pseudomonas aeruginosa pneumonia in ventilated patients: relapse or reinfection? , 1998, American journal of respiratory and critical care medicine.

[2]  M. Sebbane,et al.  Previous endotracheal aspirate allows guiding the initial treatment of ventilator-associated pneumonia , 2008, Intensive Care Medicine.

[3]  J. Nickel,et al.  Bacterial biofilms: influence on the pathogenesis, diagnosis and treatment of urinary tract infections. , 1994, The Journal of antimicrobial chemotherapy.

[4]  M. Mandelli,et al.  Early onset pneumonia: a multicenter study in intensive care units , 2004, Intensive Care Medicine.

[5]  M. Rué,et al.  Pneumonia in intubated patients: role of respiratory airway care. , 1996, American journal of respiratory and critical care medicine.

[6]  J. Costerton,et al.  Antibiotic resistance of bacteria in biofilms , 2001, The Lancet.

[7]  BAS Dale,et al.  Intravascular-catheter-related infections , 1998, The Lancet.

[8]  J. Decruyenaere,et al.  Systematic surveillance cultures as a toolto predict involvement of multidrug antibiotic resistant bacteria in ventilator-associated pneumonia , 2008, Intensive Care Medicine.

[9]  B. Guglielmo,et al.  Multidrug-Resistant Pseudomonas aeruginosa Ventilator-Associated Pneumonia: The Role of Endotracheal Aspirate Surveillance Cultures , 2009, The Annals of pharmacotherapy.

[10]  J. Cantrell,et al.  The presence and sequence of endotracheal tube colonization in patients undergoing mechanical ventilation. , 1999, The European respiratory journal.

[11]  J. Costerton,et al.  Biofilms: Survival Mechanisms of Clinically Relevant Microorganisms , 2002, Clinical Microbiology Reviews.

[12]  T. Inglis,et al.  Tracheal tube biofilm as a source of bacterial colonization of the lung , 1989, Journal of clinical microbiology.

[13]  Saxon Ridley Critical care. , 2003, Anaesthesia.

[14]  R. Donlan New approaches for the characterization of prosthetic joint biofilms. , 2005, Clinical orthopaedics and related research.

[15]  J. Barker A Randomized Trial of Diagnostic Techniques for Ventilator-Associated Pneumonia , 2008 .

[16]  J. de Batlle,et al.  Tracheal colonisation within 24 h of intubation in patients with head trauma: risk factor for developing early-onset ventilator-associated pneumonia , 2000, Intensive Care Medicine.

[17]  古谷 良輔,et al.  Guidelines for the management of adults with hospital-acquired, ventilator-associated, and healthcare-associated pneumonia. , 2008, American journal of respiratory and critical care medicine.

[18]  K. Zur,et al.  Electron Microscopic Analysis of Biofilm on Endotracheal Tubes Removed from Intubated Neonates , 2004, Otolaryngology--head and neck surgery : official journal of American Academy of Otolaryngology-Head and Neck Surgery.

[19]  Effects of systemic antibiotic therapy on bacterial persistence in the respiratory tract of mechanically ventilated patients , 2008, Intensive Care Medicine.

[20]  W. M. Sanders,et al.  Electron Microscopic Study of a Slime Layer , 1969, Journal of bacteriology.

[21]  E. Draper,et al.  APACHE II: A severity of disease classification system , 1985, Critical care medicine.

[22]  G. Quindós,et al.  Candida albicans, Staphylococcus aureus and Streptococcus mutans colonization in patients wearing dental prosthesis. , 2005, Medicina oral, patologia oral y cirugia bucal.

[23]  P. Malacarne,et al.  Diagnostic Characteristics of Routine Surveillance Cultures of Endotracheal Aspirate Samples in Cases of Late-Onset Ventilator-Associated Pneumonia Due to Acinetobacter baumannii , 2007, Infection Control & Hospital Epidemiology.

[24]  D. Prough,et al.  Nosocomial pulmonary infection: Possible etiologic significance of bacterial adhesion to endotracheal tubes , 1985, Critical care medicine.

[25]  R. Donlan Role of Biofilms in Antimicrobial Resistance , 2000, ASAIO journal.

[26]  J. Costerton,et al.  Introduction to biofilm. , 1999, International journal of antimicrobial agents.

[27]  Michel Wolff,et al.  Comparison of 8 vs 15 days of antibiotic therapy for ventilator-associated pneumonia in adults: a randomized trial. , 2003, JAMA.

[28]  D. Craven,et al.  Epidemiology of nosocomial pneumonia. New perspectives on an old disease. , 1995, Chest.

[29]  R. Rodríguez-Roisín,et al.  Specificity of endotracheal aspiration, protected specimen brush, and bronchoalveolar lavage in mechanically ventilated patients. , 1993, The American review of respiratory disease.

[30]  M. Niederman,et al.  Appropriateness and delay to initiate therapy in ventilator-associated pneumonia , 2006, European Respiratory Journal.

[31]  R. M. Donlan,et al.  Biofilms and device-associated infections. , 2001, Emerging infectious diseases.

[32]  S. Gorman,et al.  Eradication of endotracheal tube biofilm by nebulised gentamicin , 2002, Intensive Care Medicine.

[33]  C. Heyer,et al.  Biofilm formation in endotracheal tubes. Association between pneumonia and the persistence of pathogens. , 2002, Monaldi archives for chest disease = Archivio Monaldi per le malattie del torace.

[34]  D. Warren,et al.  Clinical practice guidelines for the diagnosis and management of intravascular catheter-related infection: 2009 Update by the Infectious Diseases Society of America. , 2009, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[35]  J. Rello,et al.  The value of routine microbial investigation in ventilator-associated pneumonia. , 1997, American journal of respiratory and critical care medicine.

[36]  J. Costerton,et al.  Bacterial biofilms: a common cause of persistent infections. , 1999, Science.

[37]  I. L. Cohen,et al.  Recurrent Pseudomonas aeruginosa pneumonia in an intensive care unit. , 1992, Chest.

[38]  M. Niederman The argument against using quantitative cultures in clinical trials and for the management of ventilator-associated pneumonia. , 2010, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[39]  J. Nicolás,et al.  Bacterial colonization patterns in mechanically ventilated patients with traumatic and medical head injury. Incidence, risk factors, and association with ventilator-associated pneumonia. , 1999, American journal of respiratory and critical care medicine.

[40]  J. Rello,et al.  Pneumonia in the intensive care unit , 2003, Critical care medicine.

[41]  R. Ferrer,et al.  Causes and predictors of nonresponse to treatment of intensive care unit–acquired pneumonia* , 2004, Critical care medicine.

[42]  A. Anzueto,et al.  Silver-coated endotracheal tubes and incidence of ventilator-associated pneumonia: the NASCENT randomized trial. , 2008, JAMA.

[43]  M. Fox,et al.  Pathogenesis of ventilator-associated pneumonia: is the contribution of biofilm clinically significant? , 1998, The Journal of hospital infection.

[44]  D. Bouros,et al.  Ventilator-associated Pneumonia or Endotracheal Tube-associated Pneumonia?: An Approach to the Pathogenesis and Preventive Strategies Emphasizing the Importance of Endotracheal Tube , 2009, Anesthesiology.

[45]  David S. Jones,et al.  Implications of endotracheal tube biofilm for ventilator-associated pneumonia , 1999, Intensive Care Medicine.

[46]  R. Donlan,et al.  Biofilms: Microbial Life on Surfaces , 2002, Emerging infectious diseases.

[47]  Marin H Kollef,et al.  Risk factors for ventilator-associated pneumonia: from epidemiology to patient management. , 2004, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[48]  S. Gorman,et al.  Selective decontamination of the digestive tract (SDD) does not prevent the formation of microbial biofilms on endotracheal tubes. , 1993, The Journal of antimicrobial chemotherapy.

[49]  A. Baccarelli,et al.  Endotracheal Tubes Coated with Antiseptics Decrease Bacterial Colonization of the Ventilator Circuits, Lungs, and Endotracheal Tube , 2004, Anesthesiology.

[50]  N. Khardori,et al.  Biofilms in device-related infections , 1995, Journal of Industrial Microbiology.

[51]  Mauricio Valencia,et al.  Ventilator-associated pneumonia , 2009, Current opinion in critical care.

[52]  L. Papazian,et al.  Early antibiotic treatment for BAL-confirmed ventilator-associated pneumonia: a role for routine endotracheal aspirate cultures. , 2005, Chest.

[53]  D. Mozingo A randomized trial of diagnostic techniques for ventilator-associated pneumonia. , 2006, The New England journal of medicine.

[54]  J W Costerton,et al.  How bacteria stick. , 1978, Scientific American.