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Benefits and risks of the P/F approach

L. Gattinoni| F. Vassalli| F. Romitti
Editorial
Volume 44, Issue 12 / December , 2018

Pages 2245 - 2247

No abstract available.

References

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  2. Maiolo G, Collino F, Vasques F, Rapetti F, Tonetti T, Romitti F, Cressoni M, Chiumello D, Moerer O, Herrmann P, Friede T, Quintel M, Gattinoni L (2018) Reclassifying acute respiratory distress syndrome. Am J Respir Crit Care Med. https://doi.org/10.1164/rccm.201709-1804OC
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  3. Aboab J, Louis B, Jonson B, Brochard L (2006) Relation between PaO2/FIO2 ratio and FIO2: a mathematical description. Intensive Care Med 32:1494–1497
  4. Kolobow T, Gattinoni L, Tomlinson T, Pierce JE (1978) An alternative to breathing. J Thorac cardiovascr Surg 75:261–266
  5. Gattinoni L, Kolobow T, Tomlinson T, White D, Pierce J (1978) Control of intermittent positive pressure breathing (IPPB) by extracorporeal removal of carbon dioxide. Br J Anaesth 50:753–758
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  6. Gattinoni L (2016) Ultra-protective ventilation and hypoxemia. Crit Care 20:130
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  7. Riley RL, Cournand A (1949) Ideal alveolar air and the analysis of ventilation–perfusion relationships in the lungs. J Appl Physiol 1:825–847
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  8. Gabel RA (1980) Algorithms for calculating and correcting blood-gas and acid-base variables. Respir Physiol 42:211–232
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  9. Severinghaus JW (1979) Simple, accurate equations for human blood O2 dissociation computations. J Appl Physiol Respir Environ Exerc Physiol 46:599–602
  10. Caironi P, Carlesso E, Cressoni M, Chiumello D, Moerer O, Chiurazzi C, Brioni M, Bottino N, Lazzerini M, Bugedo G, Quintel M, Ranieri VM, Gattinoni L (2015) Lung recruitability is better estimated according to the Berlin definition of acute respiratory distress syndrome at standard 5 cm H2O rather than higher positive end-expiratory pressure: a retrospective cohort study. Crit Care Med 43:781–790
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  11. Allardet-Servent J, Forel JM, Roch A, Guervilly C, Chiche L, Castanier M, Embriaco N, Gainnier M, Papazian L (2009) FIO2 and acute respiratory distress syndrome definition during lung protective ventilation. Crit Care Med 37(202–207):e204–206
  12. Lemaire F, Harf A, Simonneau G, Matamis D, Rivara D, Atlan G (1981) Gas exchange, static pressure-volume curve and positive-pressure ventilation at the end of expiration. Study of 16 cases of acute respiratory insufficiency in adults. Ann Anesthesiol Fr 22:435–441
  13. Freden F, Cigarini I, Mannting F, Hagberg A, Lemaire F, Hedenstierna G (1993) Dependence of shunt on cardiac output in unilobar oleic acid edema. Distribution of ventilation and perfusion. Intensive Care Med 19:185–190
  14. Dantzker DR, Lynch JP, Weg JG (1980) Depression of cardiac output is a mechanism of shunt reduction in the therapy of acute respiratory failure. Chest 77:636–642
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  15. Lynch JP, Mhyre JG, Dantzker DR (1979) Influence of cardiac output on intrapulmonary shunt. J Appl Physiol Respir Environ Exerc Physiol 46:315–321

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