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Journal Abstract Search

112 related items for PubMed ID: 2929251

  • 1. Volume-controlled ventilation with superimposed high frequency ventilation during expiration in healthy and surfactant-depleted pig lungs.
    Lachmann B, Schairer W, Hafner M, Armbruster S, Jonson B.
    Acta Anaesthesiol Scand Suppl; 1989; 90():117-9. PubMed ID: 2929251
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  • 2. Reduced CO2-elimination during combined high-frequency ventilation compared to conventional pressure-controlled ventilation in surfactant-deficient piglets.
    Lichtwarck-Aschoff M, Zimmermann GJ, Erhardt W.
    Acta Anaesthesiol Scand; 1998 Mar; 42(3):335-42. PubMed ID: 9542562
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  • 4. Lung aeration during ventilation after recruitment guided by tidal elimination of carbon dioxide and dynamic compliance was better than after end-tidal carbon dioxide targeted ventilation: a computed tomography study in surfactant-depleted piglets.
    Hanson A, Göthberg S, Nilsson K, Hedenstierna G.
    Pediatr Crit Care Med; 2011 Nov; 12(6):e362-8. PubMed ID: 21263364
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  • 6. High-frequency oscillation in an adult porcine model.
    Lunkenheimer PP, Redmann K, Stroh N, Gleich C, Krebs S, Scheld HH, Dietl KH, Fischer S, Whimster WF.
    Crit Care Med; 1994 Sep; 22(9 Suppl):S37-48. PubMed ID: 8070269
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  • 9. Cardiorespiratory effects of conventional and high frequency ventilation in rabbits with bilateral pneumothoraces and surfactant depleted lungs.
    Wang C, Nicol ME, Chakrabarti MK, Holdcroft A, Whitwam JG.
    Pediatr Pulmonol; 1993 Dec; 16(6):354-7. PubMed ID: 8134157
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  • 10. Intratracheal pulmonary ventilation versus conventional mechanical ventilation in a rabbit model of surfactant deficiency.
    Makhoul IR, Kugelman A, Garg M, Berkeland JE, Lew CD, Bui KC.
    Pediatr Res; 1995 Dec; 38(6):878-85. PubMed ID: 8618788
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  • 13. Partial liquid ventilation with surfactant: effects on gas exchange and lung pathology in surfactant-depleted piglets.
    Merz U, Kellinghaus M, Häusler M, Pakrawan N, Klosterhalfen B, Hörnchen H.
    Intensive Care Med; 2000 Jan; 26(1):109-16. PubMed ID: 10663291
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  • 14. An experimental randomized study of five different ventilatory modes in a piglet model of severe respiratory distress.
    Lichtwarck-Aschoff M, Nielsen JB, Sjöstrand UH, Edgren EL.
    Intensive Care Med; 1992 Jan; 18(6):339-47. PubMed ID: 1469161
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  • 15. Assessment of ventilation inhomogeneity and gas exchange with volume controlled ventilation and pressure regulated volume controlled ventilation on pigs with surfactant depleted lungs.
    Kesecioğlu J, Gultuna I, Pompe JC, Hop WC, Ince C, Erdmann W, Bruining HA.
    Adv Exp Med Biol; 1996 Jan; 388():539-44. PubMed ID: 8798857
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  • 16. Interaction between surfactant and ventilatory support in newborns with primary surfactant deficiency.
    Plavka R, Keszler M.
    Biol Neonate; 2003 Jan; 84(1):89-95. PubMed ID: 12890943
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  • 17. Comparison of static end-expiratory and effective lung volumes for gas exchange in healthy and surfactant-depleted lungs.
    Albu G, Wallin M, Hallbäck M, Emtell P, Wolf A, Lönnqvist PA, Göthberg S, Peták F, Habre W.
    Anesthesiology; 2013 Jul; 119(1):101-10. PubMed ID: 23571638
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  • 19. Intratracheal pulmonary ventilation in a rabbit lung injury model: continuous airway pressure monitoring and gas exchange efficacy.
    Hon EK, Hultquist KA, Loescher T, Raszynski A, Torbati D, Tabares C, Wolfsdorf J.
    Crit Care Med; 2000 Jul; 28(7):2480-5. PubMed ID: 10921582
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  • 20. High-frequency oscillation versus conventional ventilation following surfactant administration and partial liquid ventilation.
    Mrozek JD, Bing DR, Meyers PA, Connett JE, Mammel MC.
    Pediatr Pulmonol; 1998 Jul; 26(1):21-9. PubMed ID: 9710276
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