BACKGROUND: During cardiac arrest and after successful resuscitation a continuum of ischaemia-reperfusion injury develops. Mild hypothermia exerts protective effects in the postresuscitation phase but also alters CO₂ production and solubility, which may lead to deleterious effects if overlooked when adjusting the ventilation of the resuscitated patient. Using a multimodality approach, the effects of different carbaemic states on cerebral perfusion and metabolism were evaluated during therapeutic hypothermia. METHODS:Eight comatose survivors of prehospital cardiac arrest were cooled to 33°C for 24 h and underwent a 60 min phase of interventional lower threshold normocapnia according to temperature non-corrected pCO₂ (4.2 kPa) and higher threshold normocapnia according to corrected pCO₂ (6.0 kPa) in a random order. Prior to, during and after each phase, cerebral perfusion and metabolites via a microdialysis catheter were measured. RESULTS: During upper-threshold pCO₂, an increase in middle cerebral artery mean flow velocity (MFV) and jugularbulb oxygen saturation (jSvO₂) were observed with a concomitant decrease in cerebral lactate concentration. Lower threshold normocapnia was associated with a decrease in MFV in most patients. In all patients jSvO₂ decreased but no change in cerebral lactate was observed. In seven patients jSvO₂ decreased below 55%. These changes were not reflected to intracranial pressure or cerebral oximetry. CONCLUSIONS: During induced hypothermia, lower threshold normocapnia was associated with decreased cerebral perfusion/oxygenation but not reflected to interstitial metabolites. Upper threshold pCO₂ increased cerebral perfusion and reduced cerebral lactate. Vigilance over the ventilatory and CO₂ analysis regimen is mandatory during mild hypothermia.
RCT Entities:
BACKGROUND: During cardiac arrest and after successful resuscitation a continuum of ischaemia-reperfusion injury develops. Mild hypothermia exerts protective effects in the postresuscitation phase but also alters CO₂ production and solubility, which may lead to deleterious effects if overlooked when adjusting the ventilation of the resuscitated patient. Using a multimodality approach, the effects of different carbaemic states on cerebral perfusion and metabolism were evaluated during therapeutic hypothermia. METHODS: Eight comatose survivors of prehospital cardiac arrest were cooled to 33°C for 24 h and underwent a 60 min phase of interventional lower threshold normocapnia according to temperature non-corrected pCO₂ (4.2 kPa) and higher threshold normocapnia according to corrected pCO₂ (6.0 kPa) in a random order. Prior to, during and after each phase, cerebral perfusion and metabolites via a microdialysis catheter were measured. RESULTS: During upper-threshold pCO₂, an increase in middle cerebral artery mean flow velocity (MFV) and jugular bulb oxygen saturation (jSvO₂) were observed with a concomitant decrease in cerebral lactate concentration. Lower threshold normocapnia was associated with a decrease in MFV in most patients. In all patients jSvO₂ decreased but no change in cerebral lactate was observed. In seven patients jSvO₂ decreased below 55%. These changes were not reflected to intracranial pressure or cerebral oximetry. CONCLUSIONS: During induced hypothermia, lower threshold normocapnia was associated with decreased cerebral perfusion/oxygenation but not reflected to interstitial metabolites. Upper threshold pCO₂ increased cerebral perfusion and reduced cerebral lactate. Vigilance over the ventilatory and CO₂ analysis regimen is mandatory during mild hypothermia.
Authors: Jerry P Nolan; Robert A Berg; Clifton W Callaway; Laurie J Morrison; Vinay Nadkarni; Gavin D Perkins; Claudio Sandroni; Markus B Skrifvars; Jasmeet Soar; Kjetil Sunde; Alain Cariou Journal: Intensive Care Med Date: 2018-06-02 Impact factor: 17.440
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Authors: Jerry P Nolan; Claudio Sandroni; Bernd W Böttiger; Alain Cariou; Tobias Cronberg; Hans Friberg; Cornelia Genbrugge; Kirstie Haywood; Gisela Lilja; Véronique R M Moulaert; Nikolaos Nikolaou; Theresa Mariero Olasveengen; Markus B Skrifvars; Fabio Taccone; Jasmeet Soar Journal: Intensive Care Med Date: 2021-03-25 Impact factor: 17.440
Authors: Hendrik J F Helmerhorst; Marie-José Roos-Blom; David J van Westerloo; Ameen Abu-Hanna; Nicolette F de Keizer; Evert de Jonge Journal: Crit Care Date: 2015-09-29 Impact factor: 9.097