OBJECTIVE: A single-center retrospective study initial recently identified ventilator settings as a major risk factor for the development of acute respiratory distress syndrome (ARDS) in mechanically ventilated patients who do not have ARDS from the outset. We tested this hypothesis in a larger sample of patients prospectively enrolled in a multicenter study on mechanical ventilation. DESIGN AND SETTING: From a large international mechanical ventilation study database we identified patients who required mechanical ventilation for 48 h or more but did not have ARDS at the onset of mechanical ventilation. We extracted information on demographics, initial severity of illness, ventilator settings and major underlying ARDS risk factors. Primary outcome was development of ARDS after the onset of mechanical ventilation. MEASUREMENTS AND RESULTS: Of 3,261 mechanically ventilated patients who did not have ARDS at the outset 205 (6.2%) developed ARDS 48 h or more after the onset of mechanical ventilation. Multivariate logistic regression analysis adjusted for baseline patient characteristics (age, gender, Simplified Acute Physiology Score, hypoxemia) and underlying ARDS risk factors (sepsis, trauma, pneumonia) found the development of ARDS to be associated with the initial ventilator settings: high tidal volume (odds ratio 2.6 for tidal volume>700 ml), high peak airway pressure (odds ratio 1.6 for peak airway pressure>30 cmH2O), and high positive end-expiratory pressure (odds ratio 1.7 for end-expiratory pressure>5 cmH2O). CONCLUSIONS: The association with the potentially injurious initial ventilator settings, in particular large tidal volumes, suggests that ARDS in mechanically ventilated patients is in part a preventable complication. This hypothesis needs to be tested in a prospective study.
OBJECTIVE: A single-center retrospective study initial recently identified ventilator settings as a major risk factor for the development of acute respiratory distress syndrome (ARDS) in mechanically ventilated patients who do not have ARDS from the outset. We tested this hypothesis in a larger sample of patients prospectively enrolled in a multicenter study on mechanical ventilation. DESIGN AND SETTING: From a large international mechanical ventilation study database we identified patients who required mechanical ventilation for 48 h or more but did not have ARDS at the onset of mechanical ventilation. We extracted information on demographics, initial severity of illness, ventilator settings and major underlying ARDS risk factors. Primary outcome was development of ARDS after the onset of mechanical ventilation. MEASUREMENTS AND RESULTS: Of 3,261 mechanically ventilated patients who did not have ARDS at the outset 205 (6.2%) developed ARDS 48 h or more after the onset of mechanical ventilation. Multivariate logistic regression analysis adjusted for baseline patient characteristics (age, gender, Simplified Acute Physiology Score, hypoxemia) and underlying ARDS risk factors (sepsis, trauma, pneumonia) found the development of ARDS to be associated with the initial ventilator settings: high tidal volume (odds ratio 2.6 for tidal volume>700 ml), high peak airway pressure (odds ratio 1.6 for peak airway pressure>30 cmH2O), and high positive end-expiratory pressure (odds ratio 1.7 for end-expiratory pressure>5 cmH2O). CONCLUSIONS: The association with the potentially injurious initial ventilator settings, in particular large tidal volumes, suggests that ARDS in mechanically ventilated patients is in part a preventable complication. This hypothesis needs to be tested in a prospective study.
Authors: Ognjen Gajic; Jaeho Lee; Clinton H Doerr; Jorge C Berrios; Jeffrey L Myers; Rolf D Hubmayr Journal: Am J Respir Crit Care Med Date: 2002-12-12 Impact factor: 21.405
Authors: G R Bernard; A Artigas; K L Brigham; J Carlet; K Falke; L Hudson; M Lamy; J R Legall; A Morris; R Spragg Journal: Am J Respir Crit Care Med Date: 1994-03 Impact factor: 21.405
Authors: Andrés Esteban; Antonio Anzueto; Fernando Frutos; Inmaculada Alía; Laurent Brochard; Thomas E Stewart; Salvador Benito; Scott K Epstein; Carlos Apezteguía; Peter Nightingale; Alejandro C Arroliga; Martin J Tobin Journal: JAMA Date: 2002-01-16 Impact factor: 56.272
Authors: Ognjen Gajic; Rimki Rana; Jose L Mendez; Otis B Rickman; James F Lymp; Rolf D Hubmayr; S Breanndan Moore Journal: Transfusion Date: 2004-10 Impact factor: 3.157
Authors: Roy G Brower; Paul N Lanken; Neil MacIntyre; Michael A Matthay; Alan Morris; Marek Ancukiewicz; David Schoenfeld; B Taylor Thompson Journal: N Engl J Med Date: 2004-07-22 Impact factor: 91.245
Authors: Mark E Mikkelsen; Chirag V Shah; Arnaud Scherpereel; Paul N Lanken; Philippe Lassalle; Scarlett L Bellamy; A Russell Localio; Steven M Albelda; Nuala J Meyer; Jason D Christie Journal: J Crit Care Date: 2011-09-29 Impact factor: 3.425
Authors: Giorgio A Iotti; Andrea Polito; Mirko Belliato; Daniela Pasero; Gaetan Beduneau; Marc Wysocki; Josef X Brunner; Antonio Braschi; Laurent Brochard; Jordi Mancebo; V Marco Ranieri; Jean-Christophe M Richard; Arthur S Slutsky Journal: Intensive Care Med Date: 2010-05-26 Impact factor: 17.440
Authors: Carol Spada; Rikesh Gandhi; Sanjay R Patel; Paul Nuccio; Gerald L Weinhouse; Po-Shun Lee Journal: J Crit Care Date: 2010-10-30 Impact factor: 3.425