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Focus on paediatrics 2018

Hari Krishnan Kanthimathinathan| M. J. Peters
Volume 44, Issue 12 / December , 2018

Pages 2267 - 2270

No abstract available.


  1. Peters MJ, Argent A, Festa M et al (2017) The intensive care medicine clinical research agenda in paediatrics. Intensive Care Med 43:1210–1224
  2. Kneyber MCJ, de Luca D, Calderini E et al (2017) Recommendations for mechanical ventilation of critically ill children from the Paediatric Mechanical Ventilation Consensus Conference (PEMVECC). Intensive Care Med 43:1764–1780
  3. 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 44:1240–1248. https://doi.org/10.1007/s00134-018-5232-7
  4. Milési C, Essouri S, Pouyau R et al (2017) High flow nasal cannula (HFNC) versus nasal continuous positive airway pressure (nCPAP) for the initial respiratory management of acute viral bronchiolitis in young infants: a multicenter randomized controlled trial (TRAMONTANE study). Intensive Care Med 43:209–216. https://doi.org/10.1007/s00134-016-4617-8
  5. Franklin D, Babl FE, Schlapbach LJ et al (2018) A randomized trial of high-flow oxygen therapy in infants with bronchiolitis. N Engl J Med 378:1121–1131. https://doi.org/10.1056/NEJMoa1714855
    • View reference on publisher's website
  6. Ramnarayan P, Lister P, Dominguez T et al (2018) FIRST-line support for assistance in breathing in children (FIRST-ABC): a multicentre pilot randomised controlled trial of high-flow nasal cannula therapy versus continuous positive airway pressure in paediatric critical care. Crit Care 22:144. https://doi.org/10.1186/s13054-018-2080-3
    • View reference on publisher's website
  7. Marlais M, Lyttle MD, Inwald D (2017) Ten concerns about blood pressure measurement and targets in paediatric sepsis. Intensive Care Med 43:433–435. https://doi.org/10.1007/s00134-016-4642-7
  8. Abdelrazeq S, Ray S, Rogers L et al (2018) Age-associated blood pressure distributions in paediatric intensive care units differ from healthy children. Intensive Care Med 44:384–386
  9. Ray S, Rogers L, Noren DP et al (2017) Risk of over-diagnosis of hypotension in children: a comparative analysis of over 50,000 blood pressure measurements. Intensive Care Med 43:1540–1541
  10. Parshuram CS, Dryden-Palmer K, Farrell C et al (2018) Effect of a pediatric early warning system on all-cause mortality in hospitalized pediatric patients: the EPOCH randomized clinical trial. JAMA 319:1002–1012
    • View reference on publisher's website
  11. Chapman SM, Wray J, Oulton K, Peters MJ (2018) “Death is not the answer”: the challenge of measuring the impact of early warning systems. Arch Dis Child. https://doi.org/10.1136/archdischild-2018-315392
    • View reference on publisher's website
  12. Schlapbach LJ, MacLaren G, Festa M et al (2017) Prediction of pediatric sepsis mortality within 1 h of intensive care admission. Intensive Care Med 43:1085–1096
  13. Schlapbach LJ, Straney L, Bellomo R et al (2018) Prognostic accuracy of age-adapted SOFA, SIRS, PELOD-2, and qSOFA for in-hospital mortality among children with suspected infection admitted to the intensive care unit. Intensive Care Med 44:179–188
  14. Shime N, Kawasaki T, Nakagawa S (2017) Proposal of a new pediatric sequential organ failure assessment score for possible validation. Pediatr Crit Care Med 18:98–99. https://doi.org/10.1097/PCC.0000000000001009
    • View reference on publisher's website
  15. Matics TJ, Sanchez-Pinto LN (2017) Adaptation and validation of a pediatric sequential organ failure assessment score and evaluation of the Sepsis-3 definitions in critically ill children. JAMA Pediatr. https://doi.org/10.1001/jamapediatrics.2017.2352
    • View reference on publisher's website
  16. Kawasaki T, Shime N, Straney L et al (2018) Paediatric sequential organ failure assessment score (pSOFA): a plea for the world-wide collaboration for consensus. Intensive Care Med 44:995–997
  17. Schlapbach LJ, Javouhey E, Jansen NJG (2017) Paediatric sepsis: old wine in new bottles? Intensive Care Med 43:1686–1689. https://doi.org/10.1007/s00134-017-4800-6
  18. Khemani RG, Parvathaneni K, Yehya N et al (2018) Positive end-expiratory pressure lower than the ARDS network protocol is associated with higher pediatric acute respiratory distress syndrome mortality. Am J Respir Crit Care Med 198:77–89. https://doi.org/10.1164/rccm.201707-1404OC
    • View reference on publisher's website
  19. Yehya N, Keim G, Thomas NJ (2018) Subtypes of pediatric acute respiratory distress syndrome have different predictors of mortality. Intensive Care Med 44:1230–1239. https://doi.org/10.1007/s00134-018-5286-6
  20. De Luca D, Harrison DA, Peters MJ (2018) “Lumping or splitting” in paediatric acute respiratory distress syndrome (PARDS). Intensive Care Med 44:1548–1550

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