Log in | Register

Correction to: Physiological interventions in cardiac arrest: passing the pilot phase

Niklas Nielsen| Alain Cariou| Christian Hassager
Correction
Volume 45, Issue 2 / February , 2019

Pages 301 - 303

The reference list of the originally published article was incorrect, and now the article has been appropriately modified and updated to reflect the correction information. We apologize for the inconvenience.

References

  1. Oksanen T, Skrifvars MB, Varpula T, Kuitunen A, Pettila V, Nurmi J, Castren M (2007) Strict versus moderate glucose control after resuscitation from ventricular fibrillation. Intensive Care Med 33:2093–2100
  2. Elmer J, Scutella M, Pullalarevu R, Wang B, Vaghasia N, Trzeciak S, Rosario-Rivera BL, Guyette FX, Rittenberger JC, Dezfulian C, Pittsburgh Post-Cardiac Arrest S (2015) The association between hyperoxia and patient outcomes after cardiac arrest: analysis of a high-resolution database. Intensive Care Med 41:49–57
  3. Vaahersalo J, Bendel S, Reinikainen M, Kurola J, Tiainen M, Raj R, Pettila V, Varpula T, Skrifvars MB, Group FS (2014) Arterial blood gas tensions after resuscitation from out-of-hospital cardiac arrest: associations with long-term neurologic outcome. Crit Care Med 42:1463–1470
    • View reference on publisher's website
  4. Bro-Jeppesen J, Annborn M, Hassager C, Wise MP, Pelosi P, Nielsen N, Erlinge D, Wanscher M, Friberg H, Kjaergaard J, Investigators TTM (2015) Hemodynamics and vasopressor support during targeted temperature management at 33 degrees C versus 36 degrees C after out-of-hospital cardiac arrest: a post hoc study of the target temperature management trial. Crit Care Med 43:318–327
    • View reference on publisher's website
  5. McKenzie N, Williams TA, Tohira H, Ho KM, Finn J (2017) A systematic review and meta-analysis of the association between arterial carbon dioxide tension and outcomes after cardiac arrest. Resuscitation 111:116–126
    • View reference on publisher's website
  6. Roberts BW, Kilgannon JH, Hunter BR, Puskarich MA, Pierce L, Donnino M, Leary M, Kline JA, Jones AE, Shapiro NI, Abella BS, Trzeciak S (2018) Association between early hyperoxia exposure after resuscitation from cardiac arrest and neurological disability: prospective multicenter protocol-directed cohort study. Circulation 137:2114–2124
    • View reference on publisher's website
  7. Ebner F, Harmon MBA, Aneman A, Cronberg T, Friberg H, Hassager C, Juffermans N, Kjaergaard J, Kuiper M, Mattsson N, Pelosi P, Ullen S, Unden J, Wise MP, Nielsen N (2018) Carbon dioxide dynamics in relation to neurological outcome in resuscitated out-of-hospital cardiac arrest patients: an exploratory Target Temperature Management Trial substudy. Crit Care 22:196
    • View reference on publisher's website
  8. Eastwood GM, Schneider AG, Suzuki S, Peck L, Young H, Tanaka A, Martensson J, Warrillow S, McGuinness S, Parke R, Gilder E, McCarthy L, Galt P, Taori G, Eliott S, Lamac T, Bailey M, Harley N, Barge D, Hodgson CL, Morganti-Kossmann MC, Pebay A, Conquest A, Archer JS, Bernard S, Stub D, Hart GK, Bellomo R (2016) Targeted therapeutic mild hypercapnia after cardiac arrest: a phase II multi-centre randomised controlled trial (the CCC trial). Resuscitation 104:83–90
    • View reference on publisher's website
  9. Jakkula P, Pettilä V, Skrifvars MB, Hästbacka J, Loisa P, Tiainen M, Wilkman E, Toppila J, Koskue T, Bendel S, Birkelund T, Laru-Sompa R, Valkonen M, Reinikainen M, COMACARE Study Group (2018) Targeting low-normal or high-normal mean arterial pressure after cardiac arrest and resuscitation: a randomised pilot trial. Intensive Care Med 44:2091–2101
  10. Jakkula P, Reinikainen M, Hästbacka J, Loisa P, Tiainen M, Pettilä V, Toppila J, Lähde M, Bäcklund M, Okkonen M, Bendel S, Birkelund T, Pulkkinen A, Heinonen J, Tikka T, Skrifvars MB, COMACARE Study Group (2018) Targeting two different levels of both arterial carbon dioxide and arterial oxygen after cardiac arrest and resuscitation: a randomised pilot trial. Intensive Care Med 44:2112–2121
  11. Johnston AJ, Steiner LA, Gupta AK, Menon DK (2003) Cerebral oxygen vasoreactivity and cerebral tissue oxygen reactivity. Br J Anaesth 90:774–786
    • View reference on publisher's website
  12. Stammet P, Collignon O, Hassager C, Wise MP, Hovdenes J, Aneman A, Horn J, Devaux Y, Erlinge D, Kjaergaard J, Gasche Y, Wanscher M, Cronberg T, Friberg H, Wetterslev J, Pellis T, Kuiper M, Gilson G, Nielsen N, Investigators TT-T (2015) Neuron-specific enolase as a predictor of death or poor neurological outcome after out-of-hospital cardiac arrest and targeted temperature management at 33 degrees C and 36 degrees C. J Am Coll Cardiol 65:2104–2114
    • View reference on publisher's website
  13. Ramont L, Thoannes H, Volondat A, Chastang F, Millet MC, Maquart FX (2005) Effects of hemolysis and storage condition on neuron-specific enolase (NSE) in cerebrospinal fluid and serum: implications in clinical practice. Clin Chem Lab Med 43:1215–1217
    • View reference on publisher's website
  14. Petinos P, Gay S, Badrick T (2015) Variation in laboratory reporting of haemolysis—a need for harmonisation. Clin Biochem Rev 36:133–137
  15. Moseby-Knappe M, Mattsson N, Nielsen N, Zetterberg H, Blennow K, Dankiewicz J, Dragancea I, Friberg H, Lilja G, Insel PS, Rylander C, Westhall E, Kjaergaard J, Wise MP, Hassager C, Kuiper MA, Stammet P, Wanscher MCJ, Wetterslev J, Erlinge D, Horn J, Pellis T, Cronberg T (2018) Serum neurofilament light chain for prognosis of outcome after cardiac arrest. JAMA Neurol. https://doi.org/10.1001/jamaneurol.2018.3223
  16. Young P, Bailey M, Bellomo R, Bernard S, Dicker B, Freebairn R, Henderson S, Mackle D, McArthur C, McGuinness S, Smith T, Swain A, Weatherall M, Beasley R (2014) HyperOxic Therapy OR NormOxic Therapy after out-of-hospital cardiac arrest (HOT OR NOT): a randomised controlled feasibility trial. Resuscitation 85:1686–1691
    • View reference on publisher's website

Sign In

Connect with ICM

Top 5 Articles Editors Picks Supplement