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Targeting two different levels of both arterial carbon dioxide and arterial oxygen after cardiac arrest and resuscitation: a randomised pilot trial

Authors:	Pekka Jakkula Matti Reinikainen Johanna Hästbacka Pekka Loisa Marjaana Tiainen Ville Pettilä Jussi Toppila Marika Lähde Minna Bäcklund Marjatta Okkonen Stepani Bendel Thomas Birkelund Anni Pulkkinen Jonna Heinonen Tuukka Tikka Markus B. Skrifvars COMACARE study group

Affiliation:	1.Department of Anaesthesiology, Intensive Care and Pain Medicine,University of Helsinki and Helsinki University Hospital,Helsinki,Finland;2.Department of Intensive Care,North Karelia Central Hospital,Joensuu,Finland;3.Department of Intensive Care,P?ij?t-H?me Central Hospital,Lahti,Finland;4.Department of Anaesthesia and Intensive Care,P?ij?t-H?me Central Hospital,Lahti,Finland;5.Department of Neurology,University of Helsinki and Helsinki University Hospital,Helsinki,Finland;6.Clinical Neurophysiology, HUS Medical Imaging Center,University of Helsinki and Helsinki University Hospital,Helsinki,Finland;7.Department of Intensive Care,Kuopio University Hospital,Kuopio,Finland;8.Aarhus University Hospital,Aarhus,Denmark;9.Department of Anaesthesia and Intensive Care,Central Finland Central Hospital,Jyv?skyl?,Finland;10.Department of Emergency Medicine and Services,University of Helsinki and Helsinki University Hospital,Helsinki,Finland

Abstract:	Purpose We assessed the effects of targeting low-normal or high-normal arterial carbon dioxide tension (PaCO₂) and normoxia or moderate hyperoxia after out-of-hospital cardiac arrest (OHCA) on markers of cerebral and cardiac injury. Methods Using a 2³ factorial design, we randomly assigned 123 patients resuscitated from OHCA to low-normal (4.5–4.7 kPa) or high-normal (5.8–6.0 kPa) PaCO₂ and to normoxia (arterial oxygen tension [PaO₂] 10–15 kPa) or moderate hyperoxia (PaO₂ 20–25 kPa) and to low-normal or high-normal mean arterial pressure during the first 36 h in the intensive care unit. Here we report the results of the low-normal vs. high-normal PaCO₂ and normoxia vs. moderate hyperoxia comparisons. The primary endpoint was the serum concentration of neuron-specific enolase (NSE) 48 h after cardiac arrest. Secondary endpoints included S100B protein and cardiac troponin concentrations, continuous electroencephalography (EEG) and near-infrared spectroscopy (NIRS) results and neurologic outcome at 6 months. Results In total 120 patients were included in the analyses. There was a clear separation in PaCO₂ (p?2 (p?2 group and 22.5 µg/l (14.2–34.9 µg/l) in the high-normal PaCO₂ group, p?=?0.400; and 22.3 µg/l (14.8–27.8 µg/l) in the normoxia group and 20.6 µg/l (14.2–34.9 µg/l) in the moderate hyperoxia group, p?=?0.594). High-normal PaCO₂ and moderate hyperoxia increased NIRS values. There were no differences in other secondary outcomes. Conclusions Both high-normal PaCO₂ and moderate hyperoxia increased NIRS values, but the NSE concentration was unaffected. Registration ClinicalTrials.gov, NCT02698917. Registered on January 26, 2016.

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