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841 related items for PubMed ID: 17728041

  • 1. Exclusion of a patient assessment interval and extension of the CPR interval both mitigate post-resuscitation myocardial dysfunction in a swine model of cardiac arrest.
    Chang YT, Tang W, Russell JK, Ristagno G, Sun S, Weil MH.
    Resuscitation; 2008 Feb; 76(2):285-90. PubMed ID: 17728041
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  • 2. Immediate countershock versus cardiopulmonary resuscitation before countershock in a 5-minute swine model of ventricular fibrillation arrest.
    Niemann JT, Cruz B, Garner D, Lewis RJ.
    Ann Emerg Med; 2000 Dec; 36(6):543-6. PubMed ID: 11097692
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  • 3. Automated external defibrillators: to what extent does the algorithm delay CPR?
    Rea TD, Shah S, Kudenchuk PJ, Copass MK, Cobb LA.
    Ann Emerg Med; 2005 Aug; 46(2):132-41. PubMed ID: 16046942
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  • 8. Augmentation of tissue perfusion by a novel compression device increases neurologically intact survival in a porcine model of prolonged cardiac arrest.
    Ikeno F, Kaneda H, Hongo Y, Sakanoue Y, Nolasco C, Emami S, Lyons J, Rezaee M.
    Resuscitation; 2006 Jan; 68(1):109-18. PubMed ID: 16325982
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  • 9. Is all ventricular fibrillation the same? A comparison of ischemically induced with electrically induced ventricular fibrillation in a porcine cardiac arrest and resuscitation model.
    Niemann JT, Rosborough JP, Youngquist S, Thomas J, Lewis RJ.
    Crit Care Med; 2007 May; 35(5):1356-61. PubMed ID: 17414084
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  • 12. Improved neurological outcome with continuous chest compressions compared with 30:2 compressions-to-ventilations cardiopulmonary resuscitation in a realistic swine model of out-of-hospital cardiac arrest.
    Ewy GA, Zuercher M, Hilwig RW, Sanders AB, Berg RA, Otto CW, Hayes MM, Kern KB.
    Circulation; 2007 Nov 27; 116(22):2525-30. PubMed ID: 17998457
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  • 13. Intra-arrest selective brain cooling improves success of resuscitation in a porcine model of prolonged cardiac arrest.
    Wang H, Barbut D, Tsai MS, Sun S, Weil MH, Tang W.
    Resuscitation; 2010 May 27; 81(5):617-21. PubMed ID: 20207471
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  • 15. DEFI 2005: a randomized controlled trial of the effect of automated external defibrillator cardiopulmonary resuscitation protocol on outcome from out-of-hospital cardiac arrest.
    Jost D, Degrange H, Verret C, Hersan O, Banville IL, Chapman FW, Lank P, Petit JL, Fuilla C, Migliani R, Carpentier JP, DEFI 2005 Work Group.
    Circulation; 2010 Apr 13; 121(14):1614-22. PubMed ID: 20351239
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  • 16. Brain tissue oxygen pressure and cerebral metabolism in an animal model of cardiac arrest and cardiopulmonary resuscitation.
    Cavus E, Bein B, Dörges V, Stadlbauer KH, Wenzel V, Steinfath M, Hanss R, Scholz J.
    Resuscitation; 2006 Oct 13; 71(1):97-106. PubMed ID: 16942830
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  • 17. Neurologically intact survival in a porcine model of cardiac arrest: manual cardiopulmonary resuscitation vs. LifeBelt cardiopulmonary resuscitation.
    Youngquist ST, Niemann JT, Allread WG, Heyming T, Rosborough JP.
    Prehosp Emerg Care; 2010 Oct 13; 14(3):324-8. PubMed ID: 20388031
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  • 18. Shock outcome prediction before and after CPR: a comparative study of manual and automated active compression-decompression CPR.
    Box MS, Watson JN, Addison PS, Clegg GR, Robertson CE.
    Resuscitation; 2008 Sep 13; 78(3):265-74. PubMed ID: 18556109
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  • 19. Three-phase model of cardiac arrest: time-dependent benefit of bystander cardiopulmonary resuscitation.
    Gilmore CM, Rea TD, Becker LJ, Eisenberg MS.
    Am J Cardiol; 2006 Aug 15; 98(4):497-9. PubMed ID: 16893704
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