Natural course of iron delocalization and lipid peroxidation during the first eight hours following a 15-minute cardiac arrest in dogs

Autor:	Gary S. Krause, Steven D. Aust, Ann Marie Garritano, Narsimha R Nayini, Blaine C. White, Thomas J Hoenher, Brian J. O'Neil
Rok vydání:	1987
Předmět:	Resuscitation Cell Survival Thiobarbituric acid Iron Brain Ischemia Lipid peroxidation Membrane Lipids chemistry.chemical_compound Dogs Intensive care TBARS medicine Animals Phospholipids Total Tissue business.industry Brain Heart Arrest Molecular Weight Epinephrine chemistry Anesthesia Emergency Medicine Halothane business Oxidation-Reduction medicine.drug
Zdroj:	Annals of Emergency Medicine. 16:1200-1205
ISSN:	0196-0644
DOI:	10.1016/s0196-0644(87)80224-x
Popis:	Lipid peroxidation is thought to be a major contributing factor in neurological injury following cardiac arrest. Because iron availability is a prerequisite for lipid peroxidation, this experiment was designed to examine the natural time course of iron release, lipid peroxidation, and cerebral polyunsaturated fatty acid content following a 15-minute cardiac arrest in dogs. Large mongrel dogs were anesthetized with ketamine and halothane and divided into three groups of five each. In two groups, cardiac arrest was induced with KCl. After 15 minutes of cardiac arrest, the dogs were resuscitated by five minutes of internal cardiac massage, epinephrine, bicarbonate, and internal defibrillation. All ten dogs were resuscitated and supported by a standard intensive care protocol until tissue harvest. A 3-g portion of parietal cerebral cortex was obtained from the nonischemic dogs (n = 5), or at two hours (n = 5), or eight hours (n = 5) after resuscitation. Total tissue iron was measured by an atomic emission spectrometer; low molecular weight species (LMWS) iron by the o-phenanthroline test on an ultrafiltered sample; and lipid peroxidation by both the thiobarbituric acid test (TBARS) and determination of the tissue content of lipid double bonds, calculated by first fractionating the lipids by gas-liquid chromatography and then measuring the double bonds in each fraction by spectrometry and summing the results. Univariate ANOVA demonstrated all variables except total tissue iron to have significance at P less than .02. At two hours of reperfusion, LMWS iron and TBARS were significantly elevated above nonischemic control levels.(ABSTRACT TRUNCATED AT 250 WORDS)
Databáze:	OpenAIRE
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