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Journal Abstract Search

304 related items for PubMed ID: 16529660

  • 1. Maintained inspiratory activity during proportional assist ventilation in surfactant-depleted cats early after surfactant instillation: phrenic nerve and pulmonary stretch receptor activity.
    Sindelar R, Rieger-Fackeldey E, Jonzon A, Schaller P, Schulze A, Sedin G.
    Respir Res; 2006 Mar 10; 7(1):38. PubMed ID: 16529660
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  • 2. Surfactant replacement partially restores the activity of pulmonary stretch receptors in surfactant-depleted cats.
    Sindelar R, Jonzon A, Schulze A, Sedin G.
    J Appl Physiol (1985); 2006 Feb 10; 100(2):594-601. PubMed ID: 16210438
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  • 3. Effects of the inspiratory pressure waveform during patient-triggered ventilation on pulmonary stretch receptor and phrenic nerve activity in cats.
    Ehrhardt H, Sindelar R, Jonzon A, Rieger-Fackeldey E, Schaller P, Schulze A, Sedin G.
    Crit Care Med; 2001 Jun 10; 29(6):1207-14. PubMed ID: 11395606
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  • 4. Proportional assist ventilation: methodology and therapeutics on COPD patients compared with pressure support ventilation.
    Ye Q, Wang C, Tong Z, Huang K, Jiang C, Weng X.
    Chin Med J (Engl); 2002 Feb 10; 115(2):179-83. PubMed ID: 11940326
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  • 6. Inhibition of breathing after surfactant depletion is achieved at a higher arterial PCO2 during ventilation with liquid than with gas.
    Rieger-Fackeldey E, Sindelar R, Jonzon A, Schulze A, Sedin G.
    Respir Res; 2005 Mar 04; 6(1):24. PubMed ID: 15748281
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  • 7. Proportional-assist ventilation compared with pressure-support ventilation during exercise in volunteers with external thoracic restriction.
    Wysocki M, Meshaka P, Richard JC, Similowski T.
    Crit Care Med; 2004 Feb 04; 32(2):409-14. PubMed ID: 14758156
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  • 11. Noninvasive proportional assist ventilation and pressure support ventilation during arm elevation in patients with chronic respiratory failure. A preliminary, physiologic study.
    Poggi R, Appendini L, Polese G, Colombo R, Donner CF, Rossi A.
    Respir Med; 2006 Jun 04; 100(6):972-9. PubMed ID: 16303296
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  • 13. Open lung ventilation preserves the response to delayed surfactant treatment in surfactant-deficient newborn piglets.
    van Veenendaal MB, van Kaam AH, Haitsma JJ, Lutter R, Lachmann B.
    Crit Care Med; 2006 Nov 04; 34(11):2827-34. PubMed ID: 17006360
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  • 14. Very early surfactant without mandatory ventilation in premature infants treated with early continuous positive airway pressure: a randomized, controlled trial.
    Rojas MA, Lozano JM, Rojas MX, Laughon M, Bose CL, Rondon MA, Charry L, Bastidas JA, Perez LA, Rojas C, Ovalle O, Celis LA, Garcia-Harker J, Jaramillo ML, Colombian Neonatal Research Network.
    Pediatrics; 2009 Jan 04; 123(1):137-42. PubMed ID: 19117872
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  • 15. [A comparison of the effects of PAV, PSV and IPPV on cardiopulmonary function in patients with acute respiratory failure].
    Fang Z, Niu S, Zhu L.
    Zhonghua Jie He He Hu Xi Za Zhi; 2001 May 04; 24(5):288-91. PubMed ID: 11802978
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  • 18. Inspiratory work of breathing in ventilated preterm infants.
    Lorino H, Moriette G, Mariette C, Lorino AM, Harf A, Jarreau PH.
    Pediatr Pulmonol; 1996 May 04; 21(5):323-7. PubMed ID: 8726158
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  • 19. Assisted mechanical ventilation using combined elastic and resistive unloading in cats with severe respiratory failure: effects on gas exchange and phrenic nerve activity.
    Schulze A, Jonzon A, Sindelar R, Schaller P, Dammann V, Sedin G.
    Acta Paediatr; 1999 Jun 04; 88(6):636-41. PubMed ID: 10419248
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  • 20. Effects of the components of positive airway pressure on work of breathing during bronchospasm.
    Miro AM, Pinsky MR, Rogers PL.
    Crit Care; 2004 Apr 04; 8(2):R72-81. PubMed ID: 15025781
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