Effects of interventional lung assist on haemodynamics and gas exchange in cardiopulmonary resuscitation: a prospective experimental study on animals with acute respiratory distress syndrome

@article{Zick2009EffectsOI,
  title={Effects of interventional lung assist on haemodynamics and gas exchange in cardiopulmonary resuscitation: a prospective experimental study on animals with acute respiratory distress syndrome},
  author={G. Zick and Dirk Sch{\"a}dler and Gunnar Elke and Sven Pulletz and Berthold Bein and Jens Scholz and In{\'e}z Frerichs and Norbert Weiler},
  journal={Critical Care},
  year={2009},
  volume={13},
  pages={R17 - R17}
}
INTRODUCTION Interventional lung assist (ILA), based on the use of a pumpless extracorporeal membrane oxygenator, facilitates carbon dioxide (CO2) elimination in acute respiratory distress syndrome (ARDS). It is unclear whether an ILA system should be clamped during cardiopulmonary resuscitation (CPR) in patients with ARDS or not. The aim of our study was to test the effects of an ILA on haemodynamics and gas exchange during CPR on animals with ARDS and to establish whether the ILA should be… CONTINUE READING

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In the group with the ILA system open , arterial partial pressure of CO2 was significantly lower after 10 , 20 and 30 minutes of CPR and arterial partial pressure of oxygen was higher 20 minutes after the onset of CPR ( 191 + /-
In the group with the ILA system open , arterial partial pressure of CO2 was significantly lower after 10 , 20 and 30 minutes of CPR and arterial partial pressure of oxygen was higher 20 minutes after the onset of CPR ( 191 + /-
Our results indicate that in an animal model of ARDS , blood pressures were not impaired by keeping the ILA system open during CPR compared with the immediate clamping of the ILA with the onset of CPR .
Our results indicate that in an animal model of ARDS , blood pressures were not impaired by keeping the ILA system open during CPR compared with the immediate clamping of the ILA with the onset of CPR .
Our results indicate that in an animal model of ARDS , blood pressures were not impaired by keeping the ILA system open during CPR compared with the immediate clamping of the ILA with the onset of CPR .
Our results indicate that in an animal model of ARDS , blood pressures were not impaired by keeping the ILA system open during CPR compared with the immediate clamping of the ILA with the onset of CPR .
It is unclear whether an ILA system should be clamped during cardiopulmonary resuscitation ( CPR ) in patients with ARDS or not .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
Interventional lung assist ( ILA ) , based on the use of a pumpless extracorporeal membrane oxygenator , facilitates carbon dioxide ( CO2 ) elimination in acute respiratory distress syndrome ( ARDS ) .
It is unclear whether an ILA system should be clamped during cardiopulmonary resuscitation ( CPR ) in patients with ARDS or not .
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