Glenn M Eastwood1,2, Alistair Nichol1,3,4. 1. Australian and New Zealand Intensive Care Research Centre, Melbourne. 2. Department of Intensive Care, Austin Hospital, Heidelberg. 3. Department of Intensive Care, Alfred Hospital, Prahran, Victoria, Australia. 4. University College Dublin Clinical Research Centre, St Vincent's University Hospital, Dublin, Ireland.
Abstract
PURPOSE OF REVIEW: To describe current practice, recent advances in knowledge and future directions for research related to the post return of spontaneous circulation (ROSC) ventilatory management of cardiac arrest patients. RECENT FINDINGS: Out-of-hospital cardiac arrest (OHCA) is a major public health problem with an estimated incidence of approximately one per 1000 persons per year. A priority of intensive care management of resuscitated OHCA patients is to reduce secondary reperfusion injury. Most OHCA patients are mechanically ventilated. Most of these require mechanical ventilation as they are unconscious and for oxygen (O2) management and carbon dioxide (CO2) control. Low levels of O2 and CO2 following OHCA is associated with poor outcome. Recently, very high fraction of inspired oxygen has been associated with poor outcomes and elevated CO2 levels have been associated with improved neurological outcomes. Moreover, it is increasingly being appreciated that the ventilator may be a tool to adjust physiological parameters to enhance the chances of favourable outcomes. Finally, ventilator settings themselves and the adoption of protective ventilation strategies may affect lung-brain interactions and are being explored as other avenues for therapeutic benefit. SUMMARY: Current evidence supports the targeting of normal arterial O2 and CO2 tensions during mechanical ventilation following ROSC after cardiac arrest. Use of protective lung strategies during mechanical ventilation in resuscitated cardiac arrest patients is advocated. The potential therapeutic benefits of conservative O2 therapy, mild hypercapnia and the optimal ventilator settings to use post-ROSC period will be confirmed or refuted in clinical trials.
PURPOSE OF REVIEW: To describe current practice, recent advances in knowledge and future directions for research related to the post return of spontaneous circulation (ROSC) ventilatory management of cardiac arrestpatients. RECENT FINDINGS: Out-of-hospital cardiac arrest (OHCA) is a major public health problem with an estimated incidence of approximately one per 1000 persons per year. A priority of intensive care management of resuscitated OHCA patients is to reduce secondary reperfusion injury. Most OHCA patients are mechanically ventilated. Most of these require mechanical ventilation as they are unconscious and for oxygen (O2) management and carbon dioxide (CO2) control. Low levels of O2 and CO2 following OHCA is associated with poor outcome. Recently, very high fraction of inspired oxygen has been associated with poor outcomes and elevated CO2 levels have been associated with improved neurological outcomes. Moreover, it is increasingly being appreciated that the ventilator may be a tool to adjust physiological parameters to enhance the chances of favourable outcomes. Finally, ventilator settings themselves and the adoption of protective ventilation strategies may affect lung-brain interactions and are being explored as other avenues for therapeutic benefit. SUMMARY: Current evidence supports the targeting of normal arterial O2 and CO2 tensions during mechanical ventilation following ROSC after cardiac arrest. Use of protective lung strategies during mechanical ventilation in resuscitated cardiac arrestpatients is advocated. The potential therapeutic benefits of conservative O2 therapy, mild hypercapnia and the optimal ventilator settings to use post-ROSC period will be confirmed or refuted in clinical trials.
Authors: Chiara Robba; Niklas Nielsen; Josef Dankiewicz; Rafael Badenes; Denise Battaglini; Lorenzo Ball; Iole Brunetti; Wendel-Garcia Pedro David; Paul Young; Glenn Eastwood; Michelle S Chew; Janus Jakobsen; Johan Unden; Matthew Thomas; Michael Joannidis; Alistair Nichol; Andreas Lundin; Jacob Hollenberg; Gisela Lilja; Naomi E Hammond; Manoj Saxena; Annborn Martin; Miroslav Solar; Fabio Silvio Taccone; Hans A Friberg; Paolo Pelosi Journal: BMJ Open Date: 2022-03-03 Impact factor: 2.692
Authors: Niklas Nielsen; Paolo Pelosi; Chiara Robba; Rafael Badenes; Denise Battaglini; Lorenzo Ball; Iole Brunetti; Janus C Jakobsen; Gisela Lilja; Hans Friberg; Pedro D Wendel-Garcia; Paul J Young; Glenn Eastwood; Michelle S Chew; Johan Unden; Matthew Thomas; Michael Joannidis; Alistair Nichol; Andreas Lundin; Jacob Hollenberg; Naomi Hammond; Manoj Saxena; Martin Annborn; Miroslav Solar; Fabio S Taccone; Josef Dankiewicz Journal: Intensive Care Med Date: 2022-07-02 Impact factor: 41.787