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Items: 1 to 20 of 118

1.

Ventricular fibrillation hampers the restoration of creatine-phosphate levels during simulated cardiopulmonary resuscitations.

Hoogendijk MG, Schumacher CA, Belterman CN, Boukens BJ, Berdowski J, de Bakker JM, Koster RW, Coronel R.

Europace. 2012 Oct;14(10):1518-23. Epub 2012 Apr 4.

PMID:
22490373
2.
3.

A randomized comparison of cardiocerebral and cardiopulmonary resuscitation using a swine model of prolonged ventricular fibrillation.

Mader TJ, Kellogg AR, Walterscheid JK, Lodding CC, Sherman LD.

Resuscitation. 2010 May;81(5):596-602. doi: 10.1016/j.resuscitation.2010.01.013. Epub 2010 Feb 21.

PMID:
20176434
4.

Effect of cardiopulmonary resuscitation on restoration of myocardial ATP in prolonged ventricular fibrillation.

Choi HJ, Nguyen T, Park KS, Cha KC, Kim H, Lee KH, Hwang SO.

Resuscitation. 2013 Jan;84(1):108-13. doi: 10.1016/j.resuscitation.2012.06.006. Epub 2012 Jun 19.

PMID:
22727945
6.
7.
8.

Adverse hemodynamic effects of interrupting chest compressions for rescue breathing during cardiopulmonary resuscitation for ventricular fibrillation cardiac arrest.

Berg RA, Sanders AB, Kern KB, Hilwig RW, Heidenreich JW, Porter ME, Ewy GA.

Circulation. 2001 Nov 13;104(20):2465-70.

9.

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;71(1):97-106. Epub 2006 Aug 30.

PMID:
16942830
10.

Immediate defibrillation versus interventions first in a swine model of prolonged ventricular fibrillation.

Menegazzi JJ, Wang HE, Lightfoot CB, Fertig KC, Chengelis NL, Sherman LD, Callaway CW.

Resuscitation. 2003 Nov;59(2):261-70.

PMID:
14625118
12.

Effect of nitric oxide synthase modulation on resuscitation success in a swine ventricular fibrillation cardiac arrest model.

Zhang Y, Boddicker KA, Rhee BJ, Davies LR, Kerber RE.

Resuscitation. 2005 Oct;67(1):127-34. Epub 2005 Jul 20.

PMID:
16039037
13.

Effect of standard-dose versus high-dose epinephrine on myocardial high-energy phosphates during ventricular fibrillation and closed-chest CPR.

Hoekstra JW, Griffith R, Kelley R, Cody RJ, Lewis D, Scheatzle M, Brown CG.

Ann Emerg Med. 1993 Sep;22(9):1385-91.

PMID:
8363112
14.

The natural biochemical changes during ventricular fibrillation with cardiopulmonary resuscitation and the onset of postdefibrillation pulseless electrical activity.

Geddes LA, Roeder RA, Rundell AE, Otlewski MP, Kemeny AE, Lottes AE.

Am J Emerg Med. 2006 Sep;24(5):577-81.

PMID:
16938597
15.

Comparison of 15:1, 15:2, and 30:2 compression-to-ventilation ratios for cardiopulmonary resuscitation in a canine model of a simulated, witnessed cardiac arrest.

Hwang SO, Kim SH, Kim H, Jang YS, Zhao PG, Lee KH, Choi HJ, Shin TY.

Acad Emerg Med. 2008 Feb;15(2):183-9. doi: 10.1111/j.1553-2712.2008.00026.x.

16.

Myocardial effects of ventricular fibrillation in the isolated rat heart.

Gazmuri RJ, Berkowitz M, Cajigas H.

Crit Care Med. 1999 Aug;27(8):1542-50.

PMID:
10470762
17.

Dantrolene improves survival after ventricular fibrillation by mitigating impaired calcium handling in animal models.

Zamiri N, Massé S, Ramadeen A, Kusha M, Hu X, Azam MA, Liu J, Lai PF, Vigmond EJ, Boyle PM, Behradfar E, Al-Hesayen A, Waxman MB, Backx P, Dorian P, Nanthakumar K.

Circulation. 2014 Feb 25;129(8):875-85. doi: 10.1161/CIRCULATIONAHA.113.005443. Epub 2014 Jan 8.

18.

Initial defibrillation versus initial chest compression in a 4-minute ventricular fibrillation canine model of cardiac arrest.

Wang YL, Zhong JQ, Tao W, Hou XM, Meng XL, Zhang Y.

Crit Care Med. 2009 Jul;37(7):2250-2. doi: 10.1097/CCM.0b013e31819ffc6a.

PMID:
19455026
20.

Inhibition of nitric oxide improves coronary perfusion pressure and return of spontaneous circulation in a porcine cardiopulmonary resuscitation model.

Krismer AC, Lindner KH, Wenzel V, Rainer B, Mueller G, Lingnau W.

Crit Care Med. 2001 Mar;29(3):482-6.

PMID:
11373408

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