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Journal Abstract Search

609 related items for PubMed ID: 17717455

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  • 3. Interleukin-8, aquaporin-1, and inducible nitric oxide synthase in smoke and burn injured sheep treated with percutaneous carbon dioxide removal.
    Schmalstieg FC, Chow J, Savage C, Rudloff HE, Palkowetz KH, Zwischenberger JB.
    ASAIO J; 2001; 47(4):365-71. PubMed ID: 11482488
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  • 5. The paracorporeal artificial lung improves 5-day outcomes from lethal smoke/burn-induced acute respiratory distress syndrome in sheep.
    Zwischenberger JB, Wang D, Lick SD, Deyo DJ, Alpard SK, Chambers SD.
    Ann Thorac Surg; 2002 Oct; 74(4):1011-6; discussion 1017-8. PubMed ID: 12400738
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  • 7. Early Utilization of Extracorporeal CO2 Removal for Treatment of Acute Respiratory Distress Syndrome Due to Smoke Inhalation and Burns in Sheep.
    Kreyer S, Scaravilli V, Linden K, Belenkiy SM, Necsoiu C, Li Y, Putensen C, Chung KK, Batchinsky AI, Cancio LC.
    Shock; 2016 Jan; 45(1):65-72. PubMed ID: 26674455
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  • 8. Arterio-venous CO2 removal (AVCO2R) perioperative management: rapid recovery and enhanced survival.
    Zwischenberger JB, Savage C, Witt SA, Alpard SK, Harper DD, Deyo DJ.
    J Invest Surg; 2002 Jan; 15(1):15-21. PubMed ID: 11931489
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  • 10. Percutaneous extracorporeal arteriovenous carbon dioxide removal improves survival in respiratory distress syndrome: a prospective randomized outcomes study in adult sheep.
    Zwischenberger JB, Alpard SK, Tao W, Deyo DJ, Bidani A.
    J Thorac Cardiovasc Surg; 2001 Mar; 121(3):542-51. PubMed ID: 11241090
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  • 11. A high positive end-expiratory pressure, low tidal volume ventilatory strategy improves outcome in persistent acute respiratory distress syndrome: a randomized, controlled trial.
    Villar J, Kacmarek RM, Pérez-Méndez L, Aguirre-Jaime A.
    Crit Care Med; 2006 May; 34(5):1311-8. PubMed ID: 16557151
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  • 12. High-frequency percussive ventilation as a salvage modality in adult respiratory distress syndrome: a preliminary study.
    Paulsen SM, Killyon GW, Barillo DJ.
    Am Surg; 2002 Oct; 68(10):852-6; discussion 856. PubMed ID: 12412709
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  • 13. The effect of augmented hemodynamics on blood flow during arteriovenous carbon dioxide removal.
    Jayroe JB, Wang D, Deyo DJ, Alpard SK, Bidani A, Zwischenberger JB.
    ASAIO J; 2003 Oct; 49(1):30-4. PubMed ID: 12558304
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  • 15. Low Tidal Volume versus Non-Volume-Limited Strategies for Patients with Acute Respiratory Distress Syndrome. A Systematic Review and Meta-Analysis.
    Walkey AJ, Goligher EC, Del Sorbo L, Hodgson CL, Adhikari NKJ, Wunsch H, Meade MO, Uleryk E, Hess D, Talmor DS, Thompson BT, Brower RG, Fan E.
    Ann Am Thorac Soc; 2017 Oct; 14(Supplement_4):S271-S279. PubMed ID: 28846440
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  • 17. High-frequency percussive ventilation and low tidal volume ventilation in burns: a randomized controlled trial.
    Chung KK, Wolf SE, Renz EM, Allan PF, Aden JK, Merrill GA, Shelhamer MC, King BT, White CE, Bell DG, Schwacha MG, Wanek SM, Wade CE, Holcomb JB, Blackbourne LH, Cancio LC.
    Crit Care Med; 2010 Oct; 38(10):1970-7. PubMed ID: 20639746
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  • 20. Smoke/burn injury-induced respiratory failure elicits apoptosis in ovine lungs and cultured lung cells, ameliorated with arteriovenous CO2 removal.
    Vertrees RA, Nason R, Hold MD, Leeth AM, Schmalstieg FC, Boor PJ, Zwischenberger JB.
    Chest; 2004 Apr; 125(4):1472-82. PubMed ID: 15078761
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