UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Isolated working rat hearts were made ischemic by introducing a one-way aortic ball valve. After the ischemic period the hearts were perfused in a retrograde non-working way for 30 min. Flow rates, glycogen, ATP, and creatine-phosphate went down during the time of ischemia, whereas tissue lactate accumulated. For shorter periods of ischemia these values were normalized but after 30 min of ischemia the hearts seemed to be irreversibly damaged. There was a leakage of GOT, GPT, LDH, and CPK from all hearts when ischemic from 5 to 30 min. Different factors that might be of importance for the degree of ischemic injury were tested. The injury tended to be more severe at higher heart rates. Addition of adrenaline 10(-6)M resulted in excessive myocardial damage. A variation of pH from 7.1 to 7.7 did not alter the effects of the ischemic injury. One group of rats were injected with adrenaline for 8 weeks to simulate chronic stress. When hearts from these rats were made ischemic they were more prone to fail compared to controls. The failing hearts, on the other hand, had a lower leakage of enzymes, possibly due to a less severe myocardial damage. A high mechanical performance and a normal noradrenaline content of the hearts are key factors for the development of myocardial infarction, as indicated by this study.
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PMID:Factors of importance for the degree of ischemic injury in the isolated rat heart. 0 96

The rate of coronary flow reaching the oxygen-linited heart appears to be crucial in determining the myocardial tissue metabolic response. The tissue metabolic response to anoxia, well studied in hearts perfused with anoxic media, differs in many important ways from the response to ischemia. In regional ischemia (developing infarction) there is still a residual oxygen uptake which is reduced approximately to the same extent as the delivery of O2; there is also decreased delivery of substrates and decreased removal of CO2, H+, and lactate, with increased concentrations of these metabolites. Contents of hexose monophosphates rise rather than fall in anoxia. Measurements of glycolytic intermediates show an initial burst of accelerated glycolytic flux lasting less than 1 minute after coronary artery ligation; thereafter rates of flux decrease to control values or even less at 120 minutes. Relative inhibition of phosphofructokinase (PFK) activity may be explained by a slow rate of fall of ATP and a developing intracellular acidosis. In this model, glucose accounts for a greater part of the residual oxidative metabolism than does free fatty acid (FFA).
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PMID:Effects of regional ischemia on metabolism of glucose and fatty acids. Relative rates of aerobic and anaerobic energy production during myocardial infarction and comparison with effects of anoxia. 0 2

The behavior of a model for the partial depletion of adenine nucleotides in the perfused rat heart has been compared for ischemic and high coronary flow anoxic conditions. The accumulation of noradrenaline in the interstitial fluid greatly activates adenylate cyclase ultimately resulting in the degradation of 11.02 micronmol/g dry wt of ATP to adenosine, inosine, and hypoxanthine in 30 min. The high coronary flow rate during anoxic perfusion promotes washout of the noradrenaline from the interstitial fluid so that the hormone accumulates to only one fifth of its highest level in ischemia. This results in only slight activation of adenylate cyclase and in insignificant degradation of ATP in 2 min. The behavior of the model has been examined for two aerobic conditions--a transition from light to heavy work (2 min) and a transition from substrate-free to glucose perfusion (12 min), In both cases adenylate cyclase was not activated above its basal activity, and insignificant depletion of adenine nucleotides is predicted by the model.
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PMID:Computer simulation of ischemic rat heart purine metabolism. II. Model behavior. 1 61

A computer technique for determination of the distribution of adenine nucleotides among compartmented, protonated, and metal-chelated species has been developed for the perfused rat heart. This procedure requires knowledge of tissue levels of creatine, creatine phosphate, ATP, ADP, and AMP and the glycolytic and respiration rates. The method is applicable to any physiological state of the organ and has been applied to transient behavior in aerobic, anoxic, and ischemic hearts. The results suggest that ADP uptake and ATP export by mitochondria are normally linked and equal in rate during aerobic metabolism or short-term anoxia but become separate and unequal during ischemia, so that mitochondrial adenine nucleotides, primarily AMP, accumulate.
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PMID:Distribution of adenine nucleotides in the perfused rat heart. 1 1

Changes in cerebral cortex concentrations of high-energy phosphates, glycolytic metabolites, citric acid cycle intermediates, associated amino acids, and ammonia, were studied after 5, 15 and 30 min of incomplete ischemia in rats anesthetized with 70% N2O or 150 mg.kg-1 of phenobartibal. Previous results have shown that with this type of ischemia (bilateral carotid artery occlusion combined with reduction in blood pressure to 50 mm Hg) cortical blood flow is reduced to below 10% of nitrous oxide values, whether animals are anesthetized with 70% N2O or 150 mg.kg-1 of phenobarbital. In animals under 70% N2O, changes in tissue concentrations of phosphocreatine, ATP, ADP and AMP were similar to those previously obtained in complete ischemia. However, some glucose remained in the tissue, and the lactate concentrations gradually rose to reach excessive values. Changes occuring in glycolytic and citric acid cycle intermediates were similar to those seen in complete ischemia but, after 30 min, there was some reduction in the pool size of amino acids. In those animals given phenobarbital and which lost all EEG activity during ischemia, changes in cerebral metabolites were virtually identical to those observed in nitrous oxide-anesthetized animals. However, some animals exposed to 5 or 15 min of ischemia had some remaining EEG activity. In these, cerebral energy state was significantly less deranged, and levels of glycogen, glucose and pyruvate were higher.
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PMID:Effects of phenobarbital in cerebral ischemia. Part I: cerebral energy metabolism during pronounced incomplete ischemia. 2 84

The relevance of two direct techniques for monitoring of cellular function during tissue hypoxia has been evaluated. Tissue pH and cellular transmembrane potentials were registered in canine skeletal muscle during intestinal exteriorization shock and during prolonged local tourniquet ischemia. The obtained pH and transmembrane potential changes were correlated to simultaneous changes in high-energy phosphagen (ATP + CP) and lactate levels in skeletal muscle. In control dogs no significant changes in either of the studied variables occurred. Intestinal exteriorization shock as well as local tourniquet ischemia resulted in a gradual increase in tissue lactate and a concomitant decrease in tissue pH and transmembrane potentials. In both experimental situations there was a close correlation between the transmembrane potential reduction and the tissue lactate increase. Tissue pH registrations, on the other hand, did not similarly reveal the full extent of the tissue lactate increase under the two experimental conditions. Possible reasons for this discrepancy are discussed. On the basis of the present results it may therefore be concluded that the transmembrane potential seems to be a better variable for revealing the full extent of cellular metabolic deterioration during various situations with tissue hypoxia.
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PMID:Correlation between tissue pH, cellular transmembrane potentials, and cellular energy metabolism during shock and during ischemia. 3 May 43

Phosphorylation rates of canine heart mitochondria isolated after various periods of myocardial ischemia after cardioplegic arrest were correlated with the myocardial ATP-, lactate- and undissociated lactic acid content as well as with interstitial H+-concentration. The following correlation coefficients were found: ATP: 0.87, lactate: 0.93, interstitial H+: 0.73. The calculated undissociated lactic acid content and the mitochondrial phosphorylation rate during ischemia showed a correlation coefficient of r = 0.95. Swelling measurements of mitochondria, isolated immediately after cardioplegic arrest, demonstrated that an undissociated lactic acid- and an ATP-concentration of 70 microM and 28 microM respectively are necessary for a half maximal swelling reaction under anaerobic conditions. The results suggest that the accumulation of undissociated lactic acid during myocardial ischemia could play an important role for mitochondrial damage in vivo.
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PMID:The role of ATP and lactic acid for mitochondrial function during myocardial ischemia. 4 43

Subendocardial hemorrhagic necrosis in an important cause of death following cardiopulmonary bypass. The transmural distribution of flow across the left ventricle (LV), septum (SP), and right ventricle (RV) is a complex interaction of vascular resistance and myocardial compressive resistance. We studied the change in transmural blood flow in LV, SP, and RV, and left ventricular volume, following administration of cardiotonic and vasoactive drugs in the fibrillating heart. The drugs studied included calcium with and without ATP-induced vasodilation, isoproterenol, epinephrine, angiotensin, and ouabain. Calcium produced underperfusion of LV subendocardium with or without previous ATP vasodilation. Isoproterenol also caused underperfusion of LV subendocardium. Both calcium and isoproterenol decreased ventricular volume. Angiotensin increased resistance in the subepicardium and increased flow in the subendocardium, with no change in ventricular volume. Epinephrine and ouabain caused no consistent changes in transmural flow. The decreased ventricular volume produced by calcium and isoproterenol restricts flow in the subendocardium because of increased compressive resistance. Increased subendocardial flow with angiotensin indicates that subepicardial vasodilation in the fibrillating heart causes epicardial "steal," which contributes to subendocardial ischemia.
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PMID:Effect of cardiotonic and vasoactive drugs on transmural flow distribution and ventricular volume in the fibrillating heart on cardiopulmonary bypass. 4 21

Restoration of blood flow after 15 or 45 min. of ischemia induced an immediate recovery of phosphocreatine level and adenylate energy charge whereas ATP and total adenine nucleotides remained significantly below their normal values. These results prove that oxidative phosphorylations are not impaired but that a pool of myocardial adenine nucleotides is lost during ischemia which cannot be restored shortly after reperfusion. The significance of energy charge as a regulatory parameter in the myocardium is discussed.
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PMID:[Biochemical effects of reperfusion after regional myocardial ischemia of different duration in the open chest dog]. 11 59

The effects of ischemia on myocardial adenine nucleotide metabolism and coronary flow during cardiac hypertrophy were studied in 140 rats and 20 guinea pigs, respectively. During increased periods of ischemia, the initially lower ATP contents decreased significantly as did the initially elevated ADP levels, whereas AMP, adenosine, and inosine, and hypoxanthine showed a continually rising elevation compared with the normal hearts. The sum of ATP, ADP, AMP, and their degradation products in the hypertrophied myocardial tissues started to decline after 5 min of ischemia. The remainder was found in the 0.9% NaCl solution in which the rat hearts were incubated, in the form of hypoxanthine, which was the largest fraction, followed by inosine and adenosine, which was the lowest fraction. In normal hearts, these changes occurred only after 60 min of ischemia. The coronary flow of the isolated guinea pig hearts increased significantly with decreasing content of the oxygen gas phase in the Krebs-Henseleit perfusion medium. These changes were more significant in normal than in hypertropheid hearts despite the clear initial elevations of the coronary flow in these hearts at 95% oxygen saturated perfusion, as well as the essential increases of the adenosine content in the myocardial tissues and in the perfusates during the development of the hypoxemia. Consequently, these results significantly demonstrate the curtailed compensation possibilities of hypertrophied hearts for the maintenance of their functions during the development of ischemia in comparison with normal hearts, a factor obviously caused by the ineffecient utilization of their energy supply even without ischemia.
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PMID:Effects of ischemia on adenine nucleotide metabolism and coronary flow during cardiac hypertrophy. 12 92

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