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‘Lumping or splitting’ in paediatric acute respiratory distress syndrome (PARDS)

Daniele De Luca| David A. Harrison| Mark J. Peters
Editorial
Volume 44, Issue 9 / September , 2018

Pages 1548 - 1550

No abstract available.

References

  1. Network Acute Respiratory Distress Syndrome, Brower RG, Matthay MA et al (2000) Ventilation with lower tidal volumes as compared with traditional tidal volumes for acute lung injury and the acute respiratory distress syndrome. N Engl J Med 342:1301–1308. https://doi.org/10.1056/NEJM200005043421801
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  2. National Heart, Lung, and Blood Institute Acute Respiratory Distress Syndrome (ARDS) Clinical Trials Network, Wiedemann HP, Wheeler AP, Bernard GR, Thompson BT, Hayden D, deBoisblanc B, Connors AF Jr, Hite RD, Harabin AL (2006) Comparison of two fluid-management strategies in acute lung injury. N Engl J Med 354(24):2564–2575
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  3. Amato MBP, Meade MO, Slutsky AS et al (2015) Driving pressure and survival in the acute respiratory distress syndrome. N Engl J Med 372:747–755. https://doi.org/10.1056/NEJMsa1410639
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  4. Gattinoni L, Marini JJ, Quintel M (2018) Time to rethink the approach to treating acute respiratory distress syndrome. JAMA 319:664–666. https://doi.org/10.1001/jama.2017.21900
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  5. Meade MO, Cook DJ, Guyatt GH et al (2008) Ventilation strategy using low tidal volumes, recruitment maneuvers, and high positive end-expiratory pressure for acute lung injury and acute respiratory distress syndrome: a randomized controlled trial. JAMA 299:637–645. https://doi.org/10.1001/jama.299.6.637
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  6. Mercat A, Richard J-CM, Vielle B et al (2008) Positive end-expiratory pressure setting in adults with acute lung injury and acute respiratory distress syndrome: a randomized controlled trial. JAMA 299:646–655. https://doi.org/10.1001/jama.299.6.646
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  7. Goligher EC, Kavanagh BP, Rubenfeld GD et al (2014) Oxygenation response to positive end-expiratory pressure predicts mortality in acute respiratory distress syndrome. A secondary analysis of the LOVS and ExPress trials. Am J Respir Crit Care Med 190:70–76. https://doi.org/10.1164/rccm.201404-0688OC
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  8. Taut FJ, Rippin G, Schenk P et al (2008) A Search for subgroups of patients with ARDS who may benefit from surfactant replacement therapy: a pooled analysis of five studies with recombinant surfactant protein-C surfactant (venticute). Chest 134:724–732. https://doi.org/10.1378/chest.08-0362(Epub 2008 Aug 8)
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  9. Willson DF, Thomas NJ, Markovitz BP, Pediatric Acute Lung Injury and Sepsis Investigators et al (2005) Effect of exogenous surfactant (calfactant) in pediatric acute lung injury: a randomized controlled trial. JAMA 293:470–476
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  10. De Luca D, Piastra M, Chidini G et al (2013) The use of the Berlin definition for acute respiratory distress syndrome during infancy and early childhood: multicenter evaluation and expert consensus. Intensive Care Med 39:2083–2091. https://doi.org/10.1007/s00134-013-3110-x
  11. Khemani RG, Smith LS, Zimmerman JJ, Erickson S, for the Pediatric Acute Lung Injury Consensus Conference Group (2015) Pediatric acute respiratory distress syndrome: definition, incidence, and epidemiology: proceedings from the pediatric acute lung injury consensus conference. Pediatr Crit Care Med 16(5 suppl 1):S23–S40
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  12. Madotto F, Pham T, Bellani G et al (2018) Resolved versus confirmed ARDS after 24 h: insights from the LUNG SAFE study. Intensive Care Med 44:564–577. https://doi.org/10.1007/s00134-018-5152-6
  13. Yehya N, Keim G, Thomas NJ (2018) Subtypes of pediatric acute respiratory distress syndrome have different predictors of mortality. Intensive Care Med 44(8):1230–1239
  14. Maofeng W, Li W (2018) Use of time-varying coefficients in a cox regression model when the proportional hazard assumption is violated. Intensive Care Med. https://doi.org/10.1007/s00134-018-5351-1
  15. Thorpe KE, Zwarenstein M, Oxman AD et al (2009) A pragmatic—explanatory continuum indicator summary (PRECIS): a tool to help trial designers. J Clin Epidemiol 62:464–475
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  16. Peters MJ, Jones GAL, Wiley D, et al (2018) Conservative versus liberal oxygenation targets in critically ill children: the randomised multiple-centre pilot Oxy-PICU trial. Intensive Care Med 44(8):1240–1248

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