Subscribe to RSS Feed
News Newsfeeds Cerebral effects of hyperglycemia in experimental cardiac arrest
Written by Critical Care Medicine
To investigate the effects of cardiac arrest on cerebral perfusion and oxidative stress during hyperglycemia and normoglycemia. Design: Experimental animal model. Setting: University laboratory. Subjects: Triple-breed pigs (weight, 22-27 kg). Interventions: Thirty-three pigs were randomized and clamped at blood glucose levels of 8.5-10 mM (high) or 4-5.5 mM (normal) and thereafter subjected to alternating current-induced 12-min cardiac arrest followed by 8 mins of cardiopulmonary resuscitation and direct-current shock to restore spontaneous circulation. Measurements and Main
Results:
Hemodynamics, regional near-infrared light spectroscopy, regional venous Hbo2, and biochemical markers (Protein S100[beta], troponin I, F2-isoprostanes reflecting oxidative stress and inflammation) were monitored and/or sampled throughout an observation period of 4 hrs. No significant differences were seen in hemodynamics or biochemical profile. The cerebral oxygenation by means of regional near-infrared light spectroscopy was higher in the hyperglycemic (H) than in the normal (N) group after restoration of spontaneous circulation (p < .05). However, tendencies toward increased protein S100[beta] and 15-keto-dihydro-prostaglandin F2[alpha] were observed in the H group but were not statistically significant.
Conclusions:
The responses to 12-min cardiac arrest and cardiopulmonary resuscitation share large similarities during hyperglycemia and normoglycemia. The higher cerebral tissue oxygenation observed in the hyperglycemia needs to be confirmed and the phenomenon needs to be addressed in future studies. (C) 2010 by the Society of Critical Care Medicine and Lippincott Williams & Wilkins
Sunday, 01 August 2010 00:00
Objective:To investigate the effects of cardiac arrest on cerebral perfusion and oxidative stress during hyperglycemia and normoglycemia. Design: Experimental animal model. Setting: University laboratory. Subjects: Triple-breed pigs (weight, 22-27 kg). Interventions: Thirty-three pigs were randomized and clamped at blood glucose levels of 8.5-10 mM (high) or 4-5.5 mM (normal) and thereafter subjected to alternating current-induced 12-min cardiac arrest followed by 8 mins of cardiopulmonary resuscitation and direct-current shock to restore spontaneous circulation. Measurements and Main
Results:
Hemodynamics, regional near-infrared light spectroscopy, regional venous Hbo2, and biochemical markers (Protein S100[beta], troponin I, F2-isoprostanes reflecting oxidative stress and inflammation) were monitored and/or sampled throughout an observation period of 4 hrs. No significant differences were seen in hemodynamics or biochemical profile. The cerebral oxygenation by means of regional near-infrared light spectroscopy was higher in the hyperglycemic (H) than in the normal (N) group after restoration of spontaneous circulation (p < .05). However, tendencies toward increased protein S100[beta] and 15-keto-dihydro-prostaglandin F2[alpha] were observed in the H group but were not statistically significant.
Conclusions:
The responses to 12-min cardiac arrest and cardiopulmonary resuscitation share large similarities during hyperglycemia and normoglycemia. The higher cerebral tissue oxygenation observed in the hyperglycemia needs to be confirmed and the phenomenon needs to be addressed in future studies. (C) 2010 by the Society of Critical Care Medicine and Lippincott Williams & Wilkins
Read More: Critical Care Medicine - Current Issue
You need to login or register to post comments.
E - CC WORK PROGRAMME 10-11
ARFSeminarflyer