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Oxygen and carbon dioxide targets during and after resuscitation of cardiac arrest patients

M. B. Skrifvars| T. M. Olasveengen| Giuseppe Ristagno
Editorial
Volume 45, Issue 2 / February , 2019

Pages 284 - 286

No abstract available.

References

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  2. Imberti R, Bellinzona G, Riccardi F, Pagani M, Langer M (2003) Cerebral perfusion pressure and cerebral tissue oxygen tension in a patient during cardiopulmonary resuscitation. Intensive Care Med 29:1016–1019
  3. Neumar RW (2011) Optimal oxygenation during and after cardiopulmonary resuscitation. Curr Opin Crit Care 17:236–240
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  4. MacMillan V, Siesjo BK (1971) Critical oxygen tensions in the brain. Acta Physiol Scand 82:412–414
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  5. Siesjo BK, Carlsson C, Hagerdal M, Nordstrom CH (1976) Brain metabolism in the critically ill. Crit Care Med 4:283–294
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  6. Debaty G, Labarere J, Frascone RJ, Wayne MA, Swor RA, Mahoney BD, Domeier RM, Olinger ML, O’Neil BJ, Yannopoulos D, Aufderheide TP, Lurie KG (2017) Long-term prognostic value of gasping during out-of-hospital cardiac arrest. J Am Coll Cardiol 70:1467–1476
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  7. Ristagno G, Tang W, Sun S, Weil MH (2007) Spontaneous gasping produces carotid blood flow during untreated cardiac arrest. Resuscitation 75:366–371
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  8. Spindelboeck W, Schindler O, Moser A, Hausler F, Wallner S, Strasser C, Haas J, Gemes G, Prause G (2013) Increasing arterial oxygen partial pressure during cardiopulmonary resuscitation is associated with improved rates of hospital admission. Resuscitation 84:770–775
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  9. Spindelboeck W, Gemes G, Strasser C, Toescher K, Kores B, Metnitz P, Haas J, Prause G (2016) Arterial blood gases during and their dynamic changes after cardiopulmonary resuscitation: a prospective clinical study. Resuscitation 106:24–29
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  10. Nelskyla A, Nurmi J, Jousi M, Schramko A, Mervaala E, Ristagno G, Skrifvars MB (2017) The effect of 50% compared to 100% inspired oxygen fraction on brain oxygenation and post cardiac arrest mitochondrial function in experimental cardiac arrest. Resuscitation 116:1–7
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  11. Aufderheide TP, Sigurdsson G, Pirrallo RG, Yannopoulos D, McKnite S, von Briesen C, Sparks CW, Conrad CJ, Provo TA, Lurie KG (2004) Hyperventilation-induced hypotension during cardiopulmonary resuscitation. Circulation 109:1960–1965
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  12. Yannopoulos D, Tang W, Roussos C, Aufderheide TP, Idris AH, Lurie KG (2005) Reducing ventilation frequency during cardiopulmonary resuscitation in a porcine model of cardiac arrest. Respir Care 50:628–635
  13. Soar J, Nolan JP, Bottiger BW, Perkins GD, Lott C, Carli P, Pellis T, Sandroni C, Skrifvars MB, Smith GB, Sunde K, Deakin CD, Adult Advanced Life Support Section C (2015) European Resuscitation Council guidelines for resuscitation 2015: section 3. Adult advanced life support. Resuscitation 95:100–147
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  14. Nelskyla A, Parr MJ, Skrifvars MB (2013) Prevalence and factors correlating with hyperoxia exposure following cardiac arrest—an observational single centre study. Scand J Trauma Resusc Emerg Med 21:35
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  15. Kuisma M, Boyd J, Voipio V, Alaspaa A, Roine RO, Rosenberg P (2006) Comparison of 30 and the 100% inspired oxygen concentrations during early post-resuscitation period: a randomised controlled pilot study. Resuscitation 69:199–206
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  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
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  17. 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
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  18. Eastwood GM, Young PJ, Bellomo R (2014) The impact of oxygen and carbon dioxide management on outcome after cardiac arrest. Curr Opin Crit Care 20:266–272
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  19. Shoja MM, Tubbs RS, Shokouhi G, Loukas M, Ghabili K, Ansarin K (2008) The potential role of carbon dioxide in the neuroimmunoendocrine changes following cerebral ischemia. Life Sci 83:381–387
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  20. Tolner EA, Hochman DW, Hassinen P, Otahal J, Gaily E, Haglund MM, Kubova H, Schuchmann S, Vanhatalo S, Kaila K (2011) Five percent CO(2) is a potent, fast-acting inhalation anticonvulsant. Epilepsia 52:104–114
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