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Journal Abstract Search

145 related items for PubMed ID: 1948606

  • 1. Base deficit as a sensitive indicator of compensated shock and tissue oxygen utilization.
    Davis JW, Shackford SR, Holbrook TL.
    Surg Gynecol Obstet; 1991 Dec; 173(6):473-6. PubMed ID: 1948606
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  • 2. Oxygen transport dynamics after resuscitation with a conjugated hemoglobin solution.
    Wirk S, Vaslef SN.
    Arch Surg; 2004 Jan; 139(1):55-60. PubMed ID: 14718277
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  • 3. A comparison of the hemoglobin-based oxygen carrier HBOC-201 to other low-volume resuscitation fluids in a model of controlled hemorrhagic shock.
    Sampson JB, Davis MR, Mueller DL, Kashyap VS, Jenkins DH, Kerby JD.
    J Trauma; 2003 Oct; 55(4):747-54. PubMed ID: 14566133
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  • 6. Evaluation of hyperviscous fluid resuscitation in a canine model of hemorrhagic shock: a randomized, controlled study.
    Cooper ES, Bateman SW, Muir WW.
    J Trauma; 2009 May; 66(5):1365-73. PubMed ID: 19430240
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  • 7. The relationship of base deficit to lactate in porcine hemorrhagic shock and resuscitation.
    Davis JW.
    J Trauma; 1994 Feb; 36(2):168-72. PubMed ID: 8114129
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  • 8. Bovine polymerized hemoglobin versus Hextend resuscitation in a swine model of severe controlled hemorrhagic shock with delay to definitive care.
    Rice J, Philbin N, McGwin G, Arnaud F, Johnson T, Flournoy WS, Pearce LB, McCarron R, Kaplan L, Handrigan M, Freilich D.
    Shock; 2006 Sep; 26(3):302-10. PubMed ID: 16912657
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  • 9. The early effect of Voluven, a novel hydroxyethyl starch (130/0.4), on cerebral oxygen supply and consumption in resuscitation of rabbit with acute hemorrhagic shock.
    Chen S, Zhu X, Wang Q, Li W, Cheng D, Lei C, Xiong L.
    J Trauma; 2009 Mar; 66(3):676-82. PubMed ID: 19276737
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  • 10. Phosphomonoesters predict early mortality in porcine hemorrhagic shock.
    Taylor JH, Beilman GJ, Conroy MJ, Mulier KE, Hammer BE.
    J Trauma; 2004 Feb; 56(2):251-8. PubMed ID: 14960964
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  • 11. Fluid resuscitation with hemoglobin vesicles in a rabbit model of acute hemorrhagic shock.
    Terajima K, Tsueshita T, Sakamoto A, Ogawa R.
    Shock; 2006 Feb; 25(2):184-9. PubMed ID: 16525358
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  • 13. Thresholded area over the curve of spectrometric tissue oxygen saturation as an indicator of volume resuscitability in porcine hemorrhagic shock.
    Zenker S, Polanco PM, Kim HK, Torres A, Vodovotz Y, Clermont G, Pinsky MR, Severyn DA, Puyana JC.
    J Trauma; 2007 Sep; 63(3):573-8; discussion 578-80. PubMed ID: 18073603
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  • 14. Load-independent left ventricular function in a hemorrhagic shock model.
    Chendrasekhar A, Barringer LS, Fagerli JC, Dulaney J, Pillai S, Timberlake GA.
    J Surg Res; 1996 Apr; 62(1):49-52. PubMed ID: 8606508
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  • 17. Resuscitation with a novel hemoglobin-based oxygen carrier in a Swine model of uncontrolled perioperative hemorrhage.
    Malhotra AK, Kelly ME, Miller PR, Hartman JC, Fabian TC, Proctor KG.
    J Trauma; 2003 May; 54(5):915-24. PubMed ID: 12777904
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  • 18. Resuscitation with a hemoglobin-based oxygen carrier after traumatic brain injury.
    King DR, Cohn SM, Proctor KG.
    J Trauma; 2005 Sep; 59(3):553-60; discussion 560-2. PubMed ID: 16361895
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  • 19. Oxygen debt criteria quantify the effectiveness of early partial resuscitation after hypovolemic hemorrhagic shock.
    Siegel JH, Fabian M, Smith JA, Kingston EP, Steele KA, Wells MR, Kaplan LJ.
    J Trauma; 2003 May; 54(5):862-80; discussion 880. PubMed ID: 12777899
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  • 20. HSD is a better resuscitation fluid for hemorrhagic shock with pulmonary edema at high altitude.
    Liu LM, Hu DY, Zhou XW, Liu JC, Li P.
    Shock; 2008 Dec; 30(6):714-20. PubMed ID: 18461019
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