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C W Otto

Showing results (31-40 of 48) with videos related to

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Annals of Emergency Medicine|July 1, 1988
Acid-base balance in a canine model of cardiac arrestA B Sanders, C W Otto, K B Kern, et al.
Archives of Internal Medicine|January 1, 1992
A study of chest compression rates during cardiopulmonary resuscitation in humans. The importance of rate-directed chest compressionsK B Kern, A B Sanders, J Raife, et al.
Resuscitation|December 1, 1996
Ventricular fibrillation in a swine model of acute pediatric asphyxial cardiac arrestR A Berg, K B Kern, C W Otto, et al.
Resuscitation|September 29, 2000
Catecholamines in cardiac arrest: role of alpha agonists, beta-adrenergic blockers and high-dose epinephrineR W Hilwig, K B Kern, R A Berg, et al.
Circulation|October 1, 1993
Bystander cardiopulmonary resuscitation. Is ventilation necessary?R A Berg, K B Kern, A B Sanders, et al.
Anesthesia and Analgesia|March 1, 1983
Hemodynamic effects of high-frequency jet ventilationC W Otto, S F Quan, T J Conahan, et al.
Heart & Lung : the Journal of Critical Care|March 1, 1983
High-frequency ventilation--a promising new method of ventilationS F Quan, C W Otto, J C Calkins, et al.
Critical Care Medicine|May 1, 1984
Airway movement in dogs during high-frequency jet ventilationS F Quan, J M Calkins, C K Waterson, et al.
Pediatric Emergency Care|August 1, 1996
Initial end-tidal CO2 is markedly elevated during cardiopulmonary resuscitation after asphyxial cardiac arrestR A Berg, C Henry, C W Otto, et al.
American Heart Journal|December 1, 1996
Active compression-decompression versus standard cardiopulmonary resuscitation in a porcine model: no improvement in outcomeK B Kern, G Figge, R W Hilwig, et al.
Pageof 5

Showing results (31-40 of 48) with videos related to

Sort By:
Pageof 5
Annals of Emergency Medicine|July 1, 1988
Acid-base balance in a canine model of cardiac arrestA B Sanders, C W Otto, K B Kern, et al.
Archives of Internal Medicine|January 1, 1992
A study of chest compression rates during cardiopulmonary resuscitation in humans. The importance of rate-directed chest compressionsK B Kern, A B Sanders, J Raife, et al.
Resuscitation|December 1, 1996
Ventricular fibrillation in a swine model of acute pediatric asphyxial cardiac arrestR A Berg, K B Kern, C W Otto, et al.
Resuscitation|September 29, 2000
Catecholamines in cardiac arrest: role of alpha agonists, beta-adrenergic blockers and high-dose epinephrineR W Hilwig, K B Kern, R A Berg, et al.
Circulation|October 1, 1993
Bystander cardiopulmonary resuscitation. Is ventilation necessary?R A Berg, K B Kern, A B Sanders, et al.
Anesthesia and Analgesia|March 1, 1983
Hemodynamic effects of high-frequency jet ventilationC W Otto, S F Quan, T J Conahan, et al.
Heart & Lung : the Journal of Critical Care|March 1, 1983
High-frequency ventilation--a promising new method of ventilationS F Quan, C W Otto, J C Calkins, et al.
Critical Care Medicine|May 1, 1984
Airway movement in dogs during high-frequency jet ventilationS F Quan, J M Calkins, C K Waterson, et al.
Pediatric Emergency Care|August 1, 1996
Initial end-tidal CO2 is markedly elevated during cardiopulmonary resuscitation after asphyxial cardiac arrestR A Berg, C Henry, C W Otto, et al.
American Heart Journal|December 1, 1996
Active compression-decompression versus standard cardiopulmonary resuscitation in a porcine model: no improvement in outcomeK B Kern, G Figge, R W Hilwig, et al.
Pageof 5