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)

Cerebral ischemia was induced in cats using bilateral carotid artery occlusion coupled with hemorrhagic hypotension. Thirty minutes of ischemia, which depleted levels of ATP and phosphocreatine throughout the cerebral cortex, was followed by 2-4 hours of recirculation. During the recovery period, cortical perfusion and NADH fluorescence were monitored through a cranial window. Postischemic perfusion, as indicated by transit time, was initially higher than control, but declined to subnormal levels by 60 minutes. NADH fluorescence transients, induced by brief anoxia, also decreased steadily during recirculation, indicating a failure of oxidation-reduction capability. The disappearance of anoxic-NADH transients usually preceded the decline of flow, suggesting that O2 delivery was not the factor limiting redox reactions. Furthermore, tissue levels of NADH, which were nearly normal after 2-4 hours of recirculation, did not indicate tissue hypoxia. In spite of normalization of NADH, resynthesis of high energy phosphates were severely impaired. The degree of ATP recovery varied widely in different cortical regions; however, there were two general groups of ATP values--one at 5% and the other at 70% of control levels. In the energy-depleted areas, NADH levels were normal, but the total pool of NAD (NADH + NAD+) and the tissue content of K+ were 43% lower than control. In contrast, the NAD pool and K+ content were only slightly diminished in the regions with greater ATP restitution. The results suggest that postischemic resynthesis of ATP may be limited not by inadequate delivery of O2, but rather by defective production of NADH.
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PMID:Factors limiting regeneration of ATP following temporary ischemia in cat brain. 706 95

Glycerin-3-P, commonly known as alpha-glycerophosphate and dihydroxyacetone phosphate (DHAP) were measured in well defined microscopic samples of the simple liver acinus allowing a comparison of the glycerin-3-P/dihydroxyacetone-P-ratios of Zones 1 and 3 as a measure of the free NAD+/NADH ratio. The ATP/ADP X Pi quotients were determined in these same microscopic areas of the liver acinus as a measure of the phosphate potential. Brief ischemia was used to disturb the system. The results indicate that the oxidation-reduction and phosphate potentials are uniform throughout the entire liver lobule.
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PMID:Quantitative histochemical resolution of the oxidation-reduction and phosphate potentials within the simple hepatic acinus. 706 1

Purine and pyrimidine nucleotides are essential energy sources for basic metabolic reactions and play important roles in protein, glycogen, and nucleic acid synthesis, cyclic nucleotide metabolism, and energy transfer reactions. Brief coronary occlusions (12 min) were produced in seven open-chest dogs, and repetitive myocardial samples were taken in order to determine the response of the nucleotide pool to ischemia and reperfusion. During ischemia adenosine 5'-triphosphate (ATP) decreased to 57% of control, and similar decreases occurred in the guanosine 5'-triphosphate (GTP), cytidine 5'-triphosphate (CTP), uridine 5'-triphosphate (UTP), and nicotinamide adenine dinucleotide (NAD+) pools. The decrease in nucleotides was accompanied by an increase in nucleosides and bases. After 60 min of reperfusion the content of all nucleotides had increased but was still significantly less than nonischemic values. The content of nucleosides and bases decreased immediately upon reperfusion. In contrast, creatine phosphate (CP) fell to 10% of control during ischemia but rebounded to above control values immediately upon reperfusion. Thus depletion of all nucleotide pools occurs during ischemia, and with reperfusion nucleotide content is restored only slowly. Delayed repletion is not caused by a defect in mitochondrial synthesis of ATP because CP content is restored rapidly. The slow repletion of nucleotides may be secondary to loss of nucleotide precursors during reperfusion and may result in widespread alterations in myocardial metabolism.
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PMID:Prolonged myocardial nucleotide depletion after brief ischemia in the open-chest dog. 708 54

The cellular levels of adenine nucleotides and their metabolites in ischemic rat liver were assayed by high pressure liquid chromatography with high theoretical plate numbers. The method was sensitive enough to measure all the metabolites in about 1 mg of tissue, and to examine changes in their levels in a single liver in ischemia. In ischemia the cellular level of ATP decreased rapidly. Concomitantly there was a transitory increase in AMP, followed by its degradation to allantoin via adenosine with accumulation of all species of purine catabolites. NAD was also degraded gradually with concomitant accumulation of nicotinamide. Thus, the level of total adenine nucleotides decreased during ischemia and the amount of this decrease ws equal to the sum of the amounts of catabolites produced. The ATP level was rapidly restored on recirculation after an ischemic period of less than 15 min. However, recovery of the ATP level was depressed by prolonged ischemia and was not observed after an ischemic period of 2 h. Intermediate purine catabolites that accumulated in ischemia were also cleared during recirculation either by their removal in the blood flow or by further oxidative degradation, but they were not salvaged for reuse until the cellular level of ATP was restored. Administration of allopurinol resulted in marked accumulation of hypoxanthine in ischemic liver, but neither this drug nor chlorpromazine had any appreciable effect on recovery of the ATP level during recirculation.
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PMID:Changes in cellular levels of ATP and its catabolites in ischemic rat liver. 709 91

Nicotinamide adenine dinucleotide (NADH) kinetics were measured in 76 cortical areas in 26 patients with transient ischemic attacks (TIAs) undergoing extracranial-intracranial bypass. Direct cortical stimulation was utilized to induce changes in surface fluorescence corresponding to a brief oxidation and reduction of mitochondrial NADH. Preoperative studies of cerebral blood flow in gray matter (CBF)g) demonstrated normal perfusion in 11 patients and ischemic changes ((CBF)g less than 43.5 ml/100 g/minute) in 15 patients. In 30 normally perfused areas within the craniotomy, the mean half-time for reduction (t1/2(red)) of cortical NAD was 21.5 +/- 2.6 seconds. In 39 ischemic areas, the mean t1/2(red) was 5.6 +/- 1.2 seconds. These rapid reduction rates were associated with supernormal overshoots of the base line indicative of a transient oxygen debt. Kinetic responses could not be elicited from 7 areas adjacent to foci of decreased attenuation on compound tomography. Bypass resulted in normalization of the t1/2(red) in 24 of 28 areas of ischemia. The dependence of NADH kinetics on blood flow through the graft was demonstrated in 15 of 19 areas of mild ischemia by the reapplication of a clip to the donor artery. It is concluded that persistent reversible abnormalities of cortical mitochondrial metabolism exit in a significant number of patients with a history of TIAs who are suitable candidates for bypass surgery. In such patients bypass may effectively augment the nutrient supply to meet the bioenergetic demands associated with increased electrophysiological activity.
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PMID:Cortical nicotinamide adenine dinucleotide (NADH) kinetics in patients undergoing extracranial-intracranial bypass. 709 92

It was shown on the DS-carcinosarcoma of rat that NAD-induced blood pressure reduction to 50% of the initial value is followed by a selective compression ischemia in the tumor tissue. In this period that can be prolonged to at least 10 min by infusion of NAD the microcirculation in the tumor tissue is almost completely inhibited. Determinations of the blood volume confirm the results obtained bei O. D. measurements. The significance of this finding and its eventual utilization (cancer therapy) are discussed.
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PMID:[Selective inhibition of microcirculation in tumor tissue by manipulated blood pressure reduction]. 714 10

Xanthine oxidase and xanthine dehydrogenase are enzymes involved in the metabolism of purines and pyrimidines in various organisms. Their relationship to one another has been the subject of considerable debate, primarily because of their proposed roles in ischemia/reperfusion damage in tissues. Differences in the kinetics and oxidation-reduction behavior of the two forms are accounted for by the presence in the dehydrogenase of a binding site for NAD+, as well as a substantially lower reduction potential for the flavin FADH./FADH2 couple of the dehydrogenase relative to the oxidase. This review presents recent advances of our understanding of the biochemistry and molecular biology of these systems, including a model for the overall morphology of xanthine oxidizing enzymes. The evidence that the two enzymes represent alternate forms of the same gene product, in some cases reversibly interconvertible between one another, is discussed.
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PMID:Flavoprotein structure and mechanism. 4. Xanthine oxidase and xanthine dehydrogenase. 764 15

Reactive oxygen species (ROS) generated from xanthine oxidase (XO) play an important role in ischemia-induced injury. We hypothesize that XO and xanthine dehydrogenase (XDH) are released into the circulation with ischemia reperfusion to the human liver and intestine. Blood was drawn from a patient, before and at intervals after an aortic cross-clamp procedure. Plasma was incubated in the presence of xanthine, with NAD+ (for XD +XO) and without NAD+ (for XO). The amount of urate formed was quantified using a high-performance liquid chromatograph (HPLC). The calculated XDH+XO and XO activity increased from 1.88 and 1.66 microU/mg protein, respectively, before the cross clamp to 3.77 and 3.11 microU/mg, respectively, 7 minutes after reperfusion to the superior mesenteric, celiac, and right renal artery beds. The release of a significant biological source of ROS may explain the damage to lung or heart observed after ischemia to the human liver and intestine.
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PMID:Circulating xanthine oxidase in human ischemia reperfusion. 771 6

Copper Fenton systems (Cu(II)/H2O2 and Cu(II)/Asc) inactivated the lipoamide reductase and enhanced the diaphorase activity of pig-heart lipoamide dehydrogenase (LADH). Cupric ions alone were less effective. As a result of Cu(II)/H2O2 treatment, the number of titrated thiols in LADH decreased from 6 to 1 per subunit. NADH and ADP (not NAD+ or ATP) enhanced LADH inactivation by Cu(II). NADH also enhanced the effect of Cu(II)/H2O2. Dihydrolipoamide, dihydrolipoic acid, Captopril, acetylcysteine, EDTA, DETAPAC, histidine, bathocuproine, GSSG and trypanothione prevented LADH inactivation. 100 microM GSH, DL-dithiothreitol, N-(2-mercaptopropionylglicine) and penicillamine protected LADH against Cu(II)/Asc and Cu(II), whereas 1.0 mm GSH and DL-dithiothreitol also protected LADH against Cu(II)/H2O2. Allopurinol provided partial protection against Cu(II)/H2O2. Ethanol, mannitol, Na benzoate and superoxide dismutase failed to prevent LADH inactivation by Cu(II)/H2O2 or Cu(II). Catalase (native or denaturated) and bovine serum albumin protected LADH but that protection should be due to Cu binding. LADH inhibited deoxyribose oxidation and benzoate hydroxylation by Cu(II)/H2O2. It is concluded that site-specifically generated HO, radicals were responsible for LADH inactivation by Cu(II) Fenton systems. The latter effect is discussed in the context of ischemia-reoxygenation myocardial injury.
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PMID:Inactivation of heart dihydrolipoamide dehydrogenase by copper Fenton systems. Effect of thiol compounds and metal chelators. 775

Reperfusion after global ischemia (10-60 min in duration) in rat neocortex most commonly provoked transient hyperoxidation of mitochondrial electron carriers, tissue hyperoxygenation, and CBF hyperemia. These responses were normally accompanied by recovery of K+ homeostasis and EEG spike activity. Goals of this research were to understand putative relationships among these postreperfusion events with special emphasis on determining whether mitochondrial hyperoxidation results from intracellular changes that may modulate residual damage. The amplitude of postischemic mitochondrial hyperoxidation (PIMHo) did not increase when CBF increased above an apparent threshold during reperfusion, and tissue hyperoxygenation was not required for PIMHo to occur or to continue. These findings suggest that PIMHo is not merely a response to increased CBF and tissue hyperoxygenation; rather, PIMHo is modulated, at least in part, by residual intracellular derangements that limit mitochondrial electron transport. This suggestion was supported by observations that NAD became hyperoxidized after reoxygenation in anoxic hippocampal slices. Also, PIMHo occurred and subsequently resolved in many animals, but K+o never was cleared fully to baseline and/or EEG spike activity never was evident. One suggestion is that PIMHo signals or initiates residual intracellular derangements that in turn impair electrical and metabolic recovery of cerebral neurons after ischemia; an alternative suggestion is that PIMHo and tissue hyperoxygenation are not the sole factors modulating the immediate restoration of electrical activity after ischemia. Present data also support the following: Decreased oxygen consumption, despite adequate oxygen delivery, likely contributes to tissue hyperoxygenation after ischemia; and mitochondrial hyperoxidation is modulated by a limitation in the supply of electrons to the mitochondrial respiratory chain.
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PMID:Mitochondrial hyperoxidation signals residual intracellular dysfunction after global ischemia in rat neocortex. 779 Apr 15

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