Sebastian Voicu1, Nicolas Deye, Isabelle Malissin, Bernard Vigué, Pierre-Yves Brun, William Haik, Sebastien Champion, Bruno Megarbane, Georgios Sideris, Alexandre Mebazaa, Pierre Carli, Philippe Manivet, Frédéric J Baud. 1. 1Medical and Toxicological Intensive Care Department, Lariboisière University Hospital, APHP, Paris, France. 2INSERM U942, Université Paris Diderot, Paris, France. 3Cardiology Department, Lariboisière University Hospital, APHP, Paris, France. 4Department of Anesthesiology and Critical Care, CHU Bicêtre, APHP, Le Kremlin-Bicêtre, France. 5INSERM U705, Université Paris Denis Diderot, Paris, France. 6Department of Anaesthesia and Intensive care, Lariboisière University Hospital, APHP, Paris, France. 7SAMU 75 and Department of Anesthesiology, Necker Hospital, APHP, Paris Descartes University, Medical School, Paris, France. 8Biochemical Laboratory, Lariboisière University Hospital, APHP, Paris, France.
Abstract
OBJECTIVES: In patients treated with therapeutic hypothermia after out-of-hospital cardiac arrest, two blood gas management strategies are used regarding the PaCO2 target: α-stat or pH-stat. We aimed to compare the effects of these strategies on cerebral blood flow and oxygenation. DESIGN: Prospective observational single-center crossover study. SETTING: ICU of University hospital. PATIENTS: Twenty-one therapeutic hypothermia-treated patients after out-of-hospital cardiac arrest more than 18 years old without history of cerebrovascular disease were included. INTERVENTIONS: Cerebral perfusion and oxygenation variables were compared in α-stat (PaCO2 measured at 37 °C) versus pH-stat (PaCO2 measured at 32-34 °C), both strategies maintaining physiological PaCO2 values: 4.8-5.6 kPa (36-42 torr). MEASUREMENTS AND MAIN RESULTS: Bilateral transcranial middle cerebral artery flow velocities using Doppler and jugular vein oxygen saturation were measured in both strategies 18 hours (14-23 hr) after the return of spontaneous circulation. Pulsatility and resistance indexes and cerebral oxygen extraction were calculated. Data are expressed as median (interquartile range 25-75) in α-stat versus pH-stat. No differences were found in temperature, arterial blood pressure, and oxygenation between α-stat and pH-stat. Significant differences were found in minute ventilation (p = 0.006), temperature-corrected PaCO2 (4.4 kPa [4.1-4.6 kPa] vs. 5.1 kPa [5.0-5.3 kPa], p = 0.0001), and temperature-uncorrected PaCO2 (p = 0.0001). No differences were found in cerebral blood velocities and pulsatility and resistance indexes in the overall population. Significant differences were found in jugular vein oxygen saturation (83.2% [79.2-87.6%] vs. 86.7% [83.2-88.2%], p = 0.009) and cerebral oxygen extraction (15% [11-20%] vs. 12% [10-16%], p = 0.01), respectively. In survivors, diastolic blood velocities were 25 cm/s (19-30 cm/s) versus 29 cm/s (23-35 cm/s) (p = 0.004), pulsatility index was 1.10 (0.97-1.18) versus 0.94 (0.89-1.05) (p = 0.027), jugular vein oxygen saturation was 79.2 (71.1-81.8) versus 83.3% (76.6-87.8) (p = 0.033), respectively. However, similar results were not found in nonsurvivors. CONCLUSIONS: In therapeutic hypothermia-treated patients after out-of-hospital cardiac arrest at physiological PaCO2, α-stat strategy increases jugular vein blood desaturation and cerebral oxygen extraction compared with pH-stat strategy and decreases cerebral blood flow velocities in survivors.
OBJECTIVES: In patients treated with therapeutic hypothermia after out-of-hospital cardiac arrest, two blood gas management strategies are used regarding the PaCO2 target: α-stat or pH-stat. We aimed to compare the effects of these strategies on cerebral blood flow and oxygenation. DESIGN: Prospective observational single-center crossover study. SETTING: ICU of University hospital. PATIENTS: Twenty-one therapeutic hypothermia-treated patients after out-of-hospital cardiac arrest more than 18 years old without history of cerebrovascular disease were included. INTERVENTIONS: Cerebral perfusion and oxygenation variables were compared in α-stat (PaCO2 measured at 37 °C) versus pH-stat (PaCO2 measured at 32-34 °C), both strategies maintaining physiological PaCO2 values: 4.8-5.6 kPa (36-42 torr). MEASUREMENTS AND MAIN RESULTS: Bilateral transcranial middle cerebral artery flow velocities using Doppler and jugular vein oxygen saturation were measured in both strategies 18 hours (14-23 hr) after the return of spontaneous circulation. Pulsatility and resistance indexes and cerebral oxygen extraction were calculated. Data are expressed as median (interquartile range 25-75) in α-stat versus pH-stat. No differences were found in temperature, arterial blood pressure, and oxygenation between α-stat and pH-stat. Significant differences were found in minute ventilation (p = 0.006), temperature-corrected PaCO2 (4.4 kPa [4.1-4.6 kPa] vs. 5.1 kPa [5.0-5.3 kPa], p = 0.0001), and temperature-uncorrected PaCO2 (p = 0.0001). No differences were found in cerebral blood velocities and pulsatility and resistance indexes in the overall population. Significant differences were found in jugular vein oxygen saturation (83.2% [79.2-87.6%] vs. 86.7% [83.2-88.2%], p = 0.009) and cerebral oxygen extraction (15% [11-20%] vs. 12% [10-16%], p = 0.01), respectively. In survivors, diastolic blood velocities were 25 cm/s (19-30 cm/s) versus 29 cm/s (23-35 cm/s) (p = 0.004), pulsatility index was 1.10 (0.97-1.18) versus 0.94 (0.89-1.05) (p = 0.027), jugular vein oxygen saturation was 79.2 (71.1-81.8) versus 83.3% (76.6-87.8) (p = 0.033), respectively. However, similar results were not found in nonsurvivors. CONCLUSIONS: In therapeutic hypothermia-treated patients after out-of-hospital cardiac arrest at physiological PaCO2, α-stat strategy increases jugular vein blood desaturation and cerebral oxygen extraction compared with pH-stat strategy and decreases cerebral blood flow velocities in survivors.
Authors: Jean Baptiste Lascarrou; Ferhat Meziani; Amélie Le Gouge; Thierry Boulain; Jérôme Bousser; Guillaume Belliard; Pierre Asfar; Jean Pierre Frat; Pierre François Dequin; Jean Paul Gouello; Arnaud Delahaye; Ali Ait Hssain; Jean Charles Chakarian; Nicolas Pichon; Arnaud Desachy; Fréderic Bellec; Didier Thevenin; Jean Pierre Quenot; Michel Sirodot; François Labadie; Gaétan Plantefeve; Dominique Vivier; Patrick Girardie; Bruno Giraudeau; Jean Reignier Journal: Scand J Trauma Resusc Emerg Med Date: 2015-03-07 Impact factor: 2.953
Authors: Florian Ebner; Matt B A Harmon; Anders Aneman; Tobias Cronberg; Hans Friberg; Christian Hassager; Nicole Juffermans; Jesper Kjærgaard; Michael Kuiper; Niklas Mattsson; Paolo Pelosi; Susann Ullén; Johan Undén; Matt P Wise; Niklas Nielsen Journal: Crit Care Date: 2018-08-18 Impact factor: 9.097
Authors: Florian Ebner; Susann Ullén; Anders Åneman; Tobias Cronberg; Niklas Mattsson; Hans Friberg; Christian Hassager; Jesper Kjærgaard; Michael Kuiper; Paolo Pelosi; Johan Undén; Matt P Wise; Jørn Wetterslev; Niklas Nielsen Journal: Crit Care Date: 2019-01-28 Impact factor: 9.097
Authors: Peter J Kudenchuk; Claudio Sandroni; Hendrik R Drinhaus; Bernd W Böttiger; Alain Cariou; Kjetil Sunde; Martin Dworschak; Fabio Silvio Taccone; Nicolas Deye; Hans Friberg; Steven Laureys; Didier Ledoux; Mauro Oddo; Stéphane Legriel; Philippe Hantson; Jean-Luc Diehl; Pierre-Francois Laterre Journal: Ann Intensive Care Date: 2015-09-17 Impact factor: 6.925