Technologic Advances in Endotracheal Tubes for Prevention of Ventilator-Associated Pneumonia

Ventilator-associated pneumonia (VAP) is associated with high morbidity, mortality, and costs. Interventions to prevent VAP are a high priority in the care of critically ill patients requiring mechanical ventilation (MV). Multiple interventions are recommended by evidence-based practice guidelines t...

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Veröffentlicht in:	Chest 2012-07, Vol.142 (1), p.231-238
Hauptverfasser:	Fernandez, Juan F., MD, Levine, Stephanie M., MD, FCCP, Restrepo, Marcos I., MD, FCCP
Format:	Artikel
Sprache:	eng
Schlagworte:	Biofilms Biological and medical sciences Cardiology. Vascular system Critical Illness - therapy Equipment Design - instrumentation Equipment Design - trends General aspects Human infectious diseases. Experimental studies and models Humans Infectious diseases Intubation, Intratracheal - instrumentation Intubation, Intratracheal - trends Medical sciences Pneumology Pneumonia, Aspiration - prevention & control Pneumonia, Ventilator-Associated - prevention & control Postgraduate Education Corner Pulmonary/Respiratory Respiration, Artificial
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creator	Fernandez, Juan F., MD Levine, Stephanie M., MD, FCCP Restrepo, Marcos I., MD, FCCP
description	Ventilator-associated pneumonia (VAP) is associated with high morbidity, mortality, and costs. Interventions to prevent VAP are a high priority in the care of critically ill patients requiring mechanical ventilation (MV). Multiple interventions are recommended by evidence-based practice guidelines to prevent VAP, but there is a growing interest in those related to the endotracheal tube (ETT) as the main target linked to VAP. Microaspiration and biofilm formation are the two most important mechanisms implicated in the colonization of the tracheal bronchial tree and the development of VAP. Microaspiration occurs when there is distal migration of microorganisms present in the secretions accumulated above the ETT cuff. Biofilm formation has been described as the development of a network of secretions and attached microorganisms that migrate along the ETT cuff polymer and inside the lumen, facilitating the transfer to the sterile bronchial tree. Therefore, our objective was to review the literature related to recent advances in ETT technologies regarding their impact on the control of microaspiration and biofilm formation in patients on MV, and the subsequent impact on VAP.
doi_str_mv	10.1378/chest.11-2420
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Interventions to prevent VAP are a high priority in the care of critically ill patients requiring mechanical ventilation (MV). Multiple interventions are recommended by evidence-based practice guidelines to prevent VAP, but there is a growing interest in those related to the endotracheal tube (ETT) as the main target linked to VAP. Microaspiration and biofilm formation are the two most important mechanisms implicated in the colonization of the tracheal bronchial tree and the development of VAP. Microaspiration occurs when there is distal migration of microorganisms present in the secretions accumulated above the ETT cuff. Biofilm formation has been described as the development of a network of secretions and attached microorganisms that migrate along the ETT cuff polymer and inside the lumen, facilitating the transfer to the sterile bronchial tree. 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Interventions to prevent VAP are a high priority in the care of critically ill patients requiring mechanical ventilation (MV). Multiple interventions are recommended by evidence-based practice guidelines to prevent VAP, but there is a growing interest in those related to the endotracheal tube (ETT) as the main target linked to VAP. Microaspiration and biofilm formation are the two most important mechanisms implicated in the colonization of the tracheal bronchial tree and the development of VAP. Microaspiration occurs when there is distal migration of microorganisms present in the secretions accumulated above the ETT cuff. Biofilm formation has been described as the development of a network of secretions and attached microorganisms that migrate along the ETT cuff polymer and inside the lumen, facilitating the transfer to the sterile bronchial tree. Therefore, our objective was to review the literature related to recent advances in ETT technologies regarding their impact on the control of microaspiration and biofilm formation in patients on MV, and the subsequent impact on VAP.</description><subject>Biofilms</subject><subject>Biological and medical sciences</subject><subject>Cardiology. Vascular system</subject><subject>Critical Illness - therapy</subject><subject>Equipment Design - instrumentation</subject><subject>Equipment Design - trends</subject><subject>General aspects</subject><subject>Human infectious diseases. Experimental studies and models</subject><subject>Humans</subject><subject>Infectious diseases</subject><subject>Intubation, Intratracheal - instrumentation</subject><subject>Intubation, Intratracheal - trends</subject><subject>Medical sciences</subject><subject>Pneumology</subject><subject>Pneumonia, Aspiration - prevention & control</subject><subject>Pneumonia, Ventilator-Associated - prevention & control</subject><subject>Postgraduate Education Corner</subject><subject>Pulmonary/Respiratory</subject><subject>Respiration, Artificial</subject><issn>0012-3692</issn><issn>1931-3543</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpVkc9vFCEUx4nR2LV69GrmYtLLtDxggLmYbJpqmzRpk66eTAjLvOlSZ6HCzCb972XatdUTvz58ebwPIR-BHgNX-sRtMI_HADUTjL4iC2g51LwR_DVZUAqs5rJlB-Rdzne0rKGVb8kBY6qVWjQL8nOFbhPiEG-9q5bdzgaHufKhOgtdHJMt8XaoVtO67PYxVdcJdxhGH0MV--rHPB3sGFO9zDk6b0fsquuA0zYGb9-TN70dMn7Yj4fk-9ez1el5fXn17eJ0eVm7huuxRocSKF07y5TstRaWct2uFYoOQUnaKcvQlmnDXKd7CxxY2_K-AadZIyQ_JF-ecu-n9RY7V6pKdjD3yW9tejDRevP_SfAbcxt3hgvQutEl4GgfkOLvqTTUbH12OAw2YJyyAcqk1LKVqqD1E-pSzDlh__wMUDMbMY9GDICZjRT-07-1PdN_FRTg8x6w2dmhT0WBzy-cBAGKqpdPYunkzmMybvDBlyu_8AHzXZxSKE02YDIz1NzM8mf3wCQVAA3_AzmGq1E</recordid><startdate>20120701</startdate><enddate>20120701</enddate><creator>Fernandez, Juan F., MD</creator><creator>Levine, Stephanie M., MD, FCCP</creator><creator>Restrepo, Marcos I., MD, FCCP</creator><general>American College of Chest Physicians</general><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>5PM</scope></search><sort><creationdate>20120701</creationdate><title>Technologic Advances in Endotracheal Tubes for Prevention of Ventilator-Associated Pneumonia</title><author>Fernandez, Juan F., MD ; Levine, Stephanie M., MD, FCCP ; Restrepo, Marcos I., MD, FCCP</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c538t-ece6100bca276f884a0389b7e4de1760d7a2eae1752cd8fa1312993f51c825463</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2012</creationdate><topic>Biofilms</topic><topic>Biological and medical sciences</topic><topic>Cardiology. Vascular system</topic><topic>Critical Illness - therapy</topic><topic>Equipment Design - instrumentation</topic><topic>Equipment Design - trends</topic><topic>General aspects</topic><topic>Human infectious diseases. 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Interventions to prevent VAP are a high priority in the care of critically ill patients requiring mechanical ventilation (MV). Multiple interventions are recommended by evidence-based practice guidelines to prevent VAP, but there is a growing interest in those related to the endotracheal tube (ETT) as the main target linked to VAP. Microaspiration and biofilm formation are the two most important mechanisms implicated in the colonization of the tracheal bronchial tree and the development of VAP. Microaspiration occurs when there is distal migration of microorganisms present in the secretions accumulated above the ETT cuff. Biofilm formation has been described as the development of a network of secretions and attached microorganisms that migrate along the ETT cuff polymer and inside the lumen, facilitating the transfer to the sterile bronchial tree. 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subjects	Biofilms Biological and medical sciences Cardiology. Vascular system Critical Illness - therapy Equipment Design - instrumentation Equipment Design - trends General aspects Human infectious diseases. Experimental studies and models Humans Infectious diseases Intubation, Intratracheal - instrumentation Intubation, Intratracheal - trends Medical sciences Pneumology Pneumonia, Aspiration - prevention & control Pneumonia, Ventilator-Associated - prevention & control Postgraduate Education Corner Pulmonary/Respiratory Respiration, Artificial
title	Technologic Advances in Endotracheal Tubes for Prevention of Ventilator-Associated Pneumonia
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