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Journal Abstract Search


221 related items for PubMed ID: 18486298

  • 21. Levosimendan improves the initial outcome of cardiopulmonary resuscitation in a swine model of cardiac arrest.
    Koudouna E, Xanthos T, Bassiakou E, Goulas S, Lelovas P, Papadimitriou D, Tsirikos N, Papadimitriou L.
    Acta Anaesthesiol Scand; 2007 Sep; 51(8):1123-9. PubMed ID: 17697310
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  • 22. Positive end-expiratory pressure improves survival in a rodent model of cardiopulmonary resuscitation using high-dose epinephrine.
    McCaul C, Kornecki A, Engelberts D, McNamara P, Kavanagh BP.
    Anesth Analg; 2009 Oct; 109(4):1202-8. PubMed ID: 19762750
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  • 23. Basic life support with four different compression/ventilation ratios in a pig model: the need for ventilation.
    Kill C, Torossian A, Freisburger C, Dworok S, Massmann M, Nohl T, Henning R, Wallot P, Gockel A, Steinfeldt T, Graf J, Eberhart L, Wulf H.
    Resuscitation; 2009 Sep; 80(9):1060-5. PubMed ID: 19604615
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  • 25. Resuscitation of severely asphyctic newborn pigs with cardiac arrest by using 21% or 100% oxygen.
    Solevåg AL, Dannevig I, Nakstad B, Saugstad OD.
    Neonatology; 2010 Jun; 98(1):64-72. PubMed ID: 20068361
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  • 28. Continuous passive oxygen insufflation results in a similar outcome to positive pressure ventilation in a swine model of out-of-hospital ventricular fibrillation.
    Hayes MM, Ewy GA, Anavy ND, Hilwig RW, Sanders AB, Berg RA, Otto CW, Kern KB.
    Resuscitation; 2007 Aug; 74(2):357-65. PubMed ID: 17379381
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  • 29. A comparison of 2 types of chest compressions in a porcine model of cardiac arrest.
    Wu JY, Li CS, Liu ZX, Wu CJ, Zhang GC.
    Am J Emerg Med; 2009 Sep; 27(7):823-9. PubMed ID: 19683111
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  • 30. Correlations between hemodynamic, oxygenation and tissue perfusion parameters during asphyxial cardiac arrest and resuscitation in a pediatric animal model.
    López-Herce J, Fernández B, Urbano J, Mencía S, Solana MJ, Del Castillo J, Rodríguez-Núñez A, Bellón JM, Carrillo A.
    Resuscitation; 2011 Jun; 82(6):755-9. PubMed ID: 21458138
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  • 31. Cardiopulmonary resuscitation with chest compressions during sustained inflations: a new technique of neonatal resuscitation that improves recovery and survival in a neonatal porcine model.
    Schmölzer GM, O'Reilly M, Labossiere J, Lee TF, Cowan S, Qin S, Bigam DL, Cheung PY.
    Circulation; 2013 Dec 03; 128(23):2495-503. PubMed ID: 24088527
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  • 33. Comparison of 30 and the 100% inspired oxygen concentrations during early post-resuscitation period: a randomised controlled pilot study.
    Kuisma M, Boyd J, Voipio V, Alaspää A, Roine RO, Rosenberg P.
    Resuscitation; 2006 May 03; 69(2):199-206. PubMed ID: 16500018
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  • 34. A case study in therapeutic hypothermia treatment post-cardiac arrest in a 56-year-old male.
    Nichols R, Zawada E.
    S D Med; 2008 Oct 03; 61(10):371-3. PubMed ID: 19051755
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  • 35. Out-of-hospital cardiopulmonary resuscitation with the AutoPulse system: a prospective observational study with a new load-distributing band chest compression device.
    Krep H, Mamier M, Breil M, Heister U, Fischer M, Hoeft A.
    Resuscitation; 2007 Apr 03; 73(1):86-95. PubMed ID: 17254691
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  • 36. Influence of dobutamine on the variables of systemic haemodynamics, metabolism, and intestinal perfusion after cardiopulmonary resuscitation in the rat.
    Studer W, Wu X, Siegemund M, Marsch S, Seeberger M, Filipovic M.
    Resuscitation; 2005 Feb 03; 64(2):227-32. PubMed ID: 15680534
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  • 39. Intra-cardiopulmonary resuscitation hypothermia with and without volume loading in an ischemic model of cardiac arrest.
    Yannopoulos D, Zviman M, Castro V, Kolandaivelu A, Ranjan R, Wilson RF, Halperin HR.
    Circulation; 2009 Oct 06; 120(14):1426-35. PubMed ID: 19770397
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  • 40. Impact of different compression-ventilation ratios during basic life support cardiopulmonary resuscitation.
    Cavus E, Meybohm P, Bein B, Steinfath M, Pöppel A, Wenzel V, Scholz J, Dörges V.
    Resuscitation; 2008 Oct 06; 79(1):118-24. PubMed ID: 18586375
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