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

The evolution of experimental myocardial infarction in the Rat with or without revascularization has been studied histochemically and histoenzymatically in 56 animals sacrified after 1, 6, 12, 24, 48 hrs and 7 days. Following permanent ischemis (14 animals), there appeared an extended transversal infarction marked by the complete disappearance of all phosphorylase activity (P-ase) after the first hour. During the first 6 hrs, changes appeared in succinodeshydrogenase (SHD) and cytochrome oxydase (Cyt-Ox). Glucose-6-phosphodeshydrogenase (G6PDH) presisted until lysis of the necrotic focus. It was possible to define a perinecrotic marginal area in which Pase activity is absent and SDH is granular "G3 in nature, characterized by continuous remodeling in the first 48 hrs. Following temporary ischemia (42 animals) the evolution was marked by rapid tissue reactions and early regression of the marginal zones. After 48 hrs and 7 days of survival, the planimetric evaluation of the infarcted area shows a definite reduction in the size of the infarctus in 50% of cases following removal of the ligature after 6 hrs, and in 66% of cases following removal of the ligature after 1 hr. It would appear probable that the revitalization of certain myocardial areas may extend from the marginal zones as is suggested by the reappearance in these zones several hrs after revascularization of P-ase and SDH activity. On the other hand, it is also true that the early restoration of blood flow does not always prevent the occurrence of an extended infarction. Certain recent observations have shown microcirculatory changes which are secondary to anoxia and should be studied further.
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PMID:[Histochemical and histoenzymatic study of experimental myocardial infarction in the rat by temporary and permanent ligation of the left coronary artery (author's transl)]. 16 14

We have used a new technique for extraction of myocardial membranes (0.25 M sucrose, 0.6 M KCl) to isolate particulate and soluble proteins and enzymatic activities in an effort to quantify changes characteristic of progressive ischemia. Myocardial blood flow (MBF) was measured with microspheres (15 micrometer diameter) in all samples of tissue used for assay of proteins and enzymatic activities; MBF to the moderately ischemic areas (M-ischemia) was 53% of control (H-control); MBF to the severely ischemic areas (L-ischemia) was 9% of control. Significant decreases (P less than 0.001) in content of protein were seen in all post 1,000 g pellets and supernatant fluids in the L-ischemia zones; particulate lysosomal enzymatic activity was significantly decreased (P less than 0.001) in all four post 1,000 g pellets (2,500 g to 140,000 g) of the L-ischemic areas (for N-acetyl-beta-glucosaminidase and beta-glucuronidase). The increase in percent free activity of lysosomal enzymes (index of loss of latency) also was highly significant (P less than 0.001) in all particulate fractions of the L-ischemic areas. In addition, about 45% of the total activity of the microsomal marker enzyme, rotenone-insensitive NADH cytochrome C reductase (RINCR), was found in the 140,000 g pellet of H-control tissue (9.9 micronmol/min per g); this activity fell to 8.1 micronmol/min per g in M-ischemic areas (P less than 0.001) and to 5.3 micronmol/min per g in L-ischemic areas (P less than 0.001). This study demonstrates that changes in myocardial proteins, lysosomes, and other membrane-bound enzymes (RINCR) may provide reproducible bichemical parameters for assessing ischemic myocardial injury.
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PMID:Effects of well-defined ischemia on myocardial lysosomal and microsomal enzymes in a canine model. 21 2

In cerebral ischemia, brain oxygen supply is totally exhausted within seconds. This necessitates cessation of mitochondrial electron transfer and energy (ATP) production. After certain periods of ATP deficiency of from 5 to 90 min, irreversible damage of mitochondrial membranes occurs. This results in decreased mitochondrial function, characterized by inhibited State 3 respiratory rates, low respiratory control ratios, and inhibited Ca2+ transport activities. A 30-min recirculation period of the ischemic brain tissue induces total restitution of mitochondrial respiratory capacity after complete ischemia, but not after incomplete ischemia. Regional in situ measurements of brain pyridine nucleotide redox levels, tissue ATP, and lactate concentrations indicate variable metabolic responses of different brain regions to oligemia. Macroheterogeneity from region to region, as well as microheterogeneity within a region are demonstrated. Contrary to the effect of tissue ischemia involving reduced or zero cerebral blood flow and tissue oxygenation, sublethal hypoxia alone at normal or increased levels of blood flow induces adaptation of the mitochondrial enzyme system to a new level of respiratory capacity, without any indications of inhibited mitochondrial energy production. Acute hypoxia induces increased respiratory capacities within 30-60 min. Under chronic conditions, alterations of mitochondrial cytochrome concentrations accompany the increased respiratory capacities. Instead of the decreased efficiency of mitochondrial energy-producing mechanisms induced by ischemia, hypoxia induces increased efficiency of energy production.
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PMID:Mitochondrial function in cerebral ischemia and hypoxia: comparison of inhibitory and adaptive responses. 23 75

With the author's own observations and literature sources as a background the key issues concerned with increasing the viability of the myocardium in acute ischemia are considered. The possibility of a material enlargement of the collateral coronary circulation through administration of mesatonemonoaminoxidase inhibitors, diprazine, preparations of the metabolites type and of other agents is shown. Under consideration are data on the membranes-stabilizing effect in acute ischemia of the myocardium of dimedrol, diprazine and prednisolone, as well as possible ways of increasing the survival of the myocardium by activating the redox-processes and through an adequate supply of energy to ensure the vital functions of the myocardial cell at rest by using pertinent pharmacological agents (cytochrome C, NADP, ubiquinone, hexose-phosphate, monoaminodicarboxylic amino acids).
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PMID:[Problem of increasing the viability of the ischemic myocardium in the light of experimental studies]. 23 63

The limitation of a myocardial necrotic area by some energy-yielding compounds in rat coronary occlusion and their capacity to elevate the ischemia threshold in conscious rabbits were studied. Sodium malate, ascorbic acid and phosphoenolpyruvate were demonstrated to reduce the sizes of necrotic areas and increase the ischemia threshold, whereas cytochrome C and fructose-1,6-diphosphate were effective solely in limiting the infection area. It was concluded that the preventive antianginal effect of energy-yielding and electron-accepting compounds depended on their capacity to accumulate in intact cardiomyocytes.
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PMID:[A comparative evaluation of the cardioprotective and antianginal actions of energy-providing agents]. 145 76

Cerebral ischemia provokes sequential changes that include EEG suppression, anoxic depolarization (AD) with maximal increases in extracellular potassium ion activity (K+o), and anoxia with maximal decreases in tissue oxygen tension (tPO2) and increases in the reduction/oxidation (redox) ratios of the mitochondrial electron transport carriers. Studies were directed toward relationships among these events during cerebral ischemia ("four-vessel occlusion model") in pentobarbital anesthetized rats. Results demonstrate that EEG suppression and anoxic depolarization do not occur as a simple function of progressive oxygen decline during cerebral ischemia. Rates of K+ elevation, tPO2 decline, and cytochrome a,a3 reduction were decreased in the immediate period following EEG suppression. Latency to EEG suppression was inversely correlated with latency to maximal cytochrome reduction. In contrast, AD was associated with increased rates of tPO2 decline and cytochrome a,a3 reduction. Latency to AD was related to latency of subsequent maximal cytochrome a,a3 reduction. These data suggest that EEG suppression spares oxygen while AD accelerates the progression to energy failure by accelerating the decline in oxygen stores in brain following global ischemia.
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PMID:EEG suppression and anoxic depolarization: influences on cerebral oxygenation during ischemia. 184 9

Cellular damage of various organs by ischemia following reperfusion is assumed to be at least in part due to lipid peroxidation in biomembranes, and oxygen-derived free radicals play a major role. The level of lipid peroxides in liver tissue increased during 90-min ischemia. When reflow of hepatic blood was allowed, a greater increase in the lipid peroxides was observed. Similar increases were obtained in several serum markers (GOT, GPT and LDH) during the period of ischemia or ischemia-reperfusion. In addition, levels of cytochrome p-450 and NADPH cyt. c reductase activity decreased in proportion to the decrease in microsomal proteins during ischemia or ischemia-reperfusion. On the other hand, superoxide dismutase in blood was significantly increased by ischemia-reperfusion. Rats died within 2 days after liver ischemia of 90 min, while all animals subjected to 30-min ischemia survived. Histopathological examinations indicated that extensive coagulation with erythrocytes occurred and the extent was dependent on the time of ischemia. The liver injury by ischemia-reperfusion could be a useful experimental model for studying liver injury induced by free radicals, for developing hepatoprotective drugs, or for investigating liver transplantation.
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PMID:[An injury of the liver caused by ischemia-reperfusion in rat liver]. 190 28

It is not possible to make accurate measurements of muscle lactic acid net exchange during exercise by application of the Fick relationship. To make accurate measurements of lactic acid net exchange, preparations with isolated circulations have been used. Since such preparations utilize relatively small muscles or groups of muscles, the data apply to muscle contractions, not exercise. In exercise, external influences may affect lactate exchange. The net lactic acid exchange (L) of the isolated dog gastrocnemius-plantaris muscle group has been quantified for repetitive twitch and tetanic contractions, progressive contractions, and four repetitions of 30-s intense contractions with 3.5 min of recovery between each. Epinephrine has been infused during repetitive and progressive contractions; modest ischemia and hypoxic hypoxia, and the oxidation-reduction state of mitochondrial cytochrome a-a3 have been investigated. After the initiation of repetitive contractions, L rises transiently to a peak at 3-5 min and then declines to net uptake after 30 min of contractions. The peak L is roughly proportional to VO2. L rises progressively during progressive contractions to levels lower than the peak in repetitive contractions. Epinephrine increases L transiently during repetitive contractions and increases L during progressive contractions. L rises to levels similar to the repetitive peak during the four repeated 30-s bouts. Cytochrome a-a3 was more oxidized during contractions than when at rest. Ischemia has little or no effect on L. Hypoxic hypoxia sufficient to produce hypoxidosis increased L sharply, but transiently. Muscle L reflects the balance between the production of the products of glycolysis and their removal into the mitochondria.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of muscle lactate production. 195 63

During operation, biopsies from the gastrocnemius muscle and, in some cases, from the sartorius muscle were taken from 32 patients with peripheral arterial occlusive disease and from 5 subjects with normal peripheral circulation. In patients with inadequate circulation only during exercise, when compared with the control group, increased activities of enzymes involved in oxidative metabolism (malate dehydrogenase, nicotinamide adenine dinucleotide phosphate-dependent isocitrate dehydrogenase, cytochrome C oxidase, creatine kinase), in amino acid metabolism (asparate aminotransferase, alanine aminotransferase), and in anaerobic glycoysis (lactate dehydrogenase) were found. In patients with circulatory disturbances that manifested themselves already at rest, enzyme activities were, with the exception of LDH, lower than those of patients with exclusively exercise-related insufficiency. By means of intraindividual comparisons with the corresponding enzyme activities in the sartorius muscle, the author was able to show that the changes found were not simply the result of differences in training conditions. The diminished concentrations of energy-rich phosphate are an expression of the anaerobic metabolic state in patients with inadequate circulation at rest. It is concluded that chronic ischemia of muscle leads to changes in the energy metabolism of the cell. In the presence of more nearly adequate circulation at rest, the portion of oxidative potential of the total energy metabolism increases. In contrast, if there is an inadequate circulation at rest, the mainly anaerobic glycolysis becomes quantitatively predominant.
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PMID:Investigations on the biochemical characteristics of chronically underperfused muscle. 201 45

The effects of acute intraocular pressure (IOP) on the reduction/oxidation ratio of cytochrome a, a3 were measured from intact cat optic nerve by microfiber reflection spectrophotometry. This enabled the real-time analysis of optic nerve-head oxidative metabolism following IOP or mean arterial pressure (MAP) changes. Findings included: (1) cytochrome a, a3 became more reduced and relative blood volume decreased at lower perfusion pressures, even at IOP of less than 20 mm Hg; (2) metabolic inhibition began at variable perfusion pressures but invariably progressed as perfusion pressure declined; and (3) increased IOP or decreased MAP caused metabolic inhibition. These findings demonstrate that: (1) optic nerve metabolic dysfunction is possible at low IOPs; (2) lowering IOP can reverse metabolic dysfunction; (3) the metabolic response is dependent on IOP and/or MAP changes; and (4) the metabolic inhibition is related to optic nerve ischemia.
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PMID:Intraocular pressure effects on optic nerve-head oxidative metabolism measured in vivo. 215 40


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