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)

Dopamine (DA), serotonin (5-HT), tryptophan (TRP), 5-hydroxyindole acetic acid (5-HIAA), and GABA were assayed spectrofluorometrically in various regions of 16 human post-mortem brains with acute and old cerebral infarction. In both recent and older strokes a total depletion of DA and 5-HT in the necrotic tissue was associated with mild reduction of these compounds in remote non-ischemic areas of the injured, and less of the contralateral cerebral hemispheres. 5-HIAA was significantly reduced in acute ischemic necrosis, while the perifocal edema zone showed considerable accumulation of both 5-HT and 5-HIAA. Marked elevation of the 5-HT precursor TRP and of GABA was present in both the necrotic center and perifocal edema of acute infarcts, which also showed a mild reduction of total proteins. The degradation zone surrounding old infarcts showed a mild decrease of both 5-HT and 5-HIAA with normal TRP levels, indicating normalization of the previously increased 5-HT metabolism and turnover after decrease of acute cerebral edema. These data which confirm previous studies in experimental cerebral ischemia and stroke indicate that disorders in the metabolism of brain monoamines and other putative neurotransmitters contribute to the development of postischemic brain damage and the complicating cerebral edema. They are also in keeping with the concept that unilateral focal ischemia produces bilateral effects on brain monoamines.
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PMID:Changes of some putative neurotransmitters in human cerebral infarction. 3 76

Cerebral ischemia was induced in normothermic, artificially ventilated rats, anesthetized with 70% N2O or 150 mg/kg of phenobarbitone, by bilateral occlusion of the common carotid arteries and by simultaneous depression of the mean arterial blood pressure to 50 mm Hg. The levels of tyrosine, dopamine (DA), noradrenaline (NA), tryptophan, 5-hydroxytryptamine (5-HT) and 5-hydroxyindoleacetic acid (5-HIAA) were measured after 15 min of ischemia as well as after 30 min of recirculation. In separate experiments (70% N2O) the rate of accumulation of DOPA and 5-hydroxytryptophan (5-HTP) was determined in three different brain regions (striatum, limbic forebrain and hemispheres) during recirculation. During ischemia, the monoamine pattern was unaffected. Following recirculation, increases in DA, 5-HIAA, tyrosine and tryptophan were found irrespective of the type of anesthesia used. Pronounced postischemic decreases in NA and 5-HT were observed in animals anesthetized with nitrous oxide but not in those given phenobarbitone. During recirculation the rate of tyrosine hydroxylation increased in all three brain regions while tryptophan hydroxylation was reduced. It is tentatively concluded that following transient, global cerebral ischemia, neuronal activity is low or eliminated in dopaminergic and serotoninergic neurons and high in noradrenergic neurons.
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PMID:Influence of transient ischemia on monoamine metabolism in the rat brain during nitrous oxide and phenobarbitone anaesthesia. 30 81

Excessive activity or release of excitatory amino acids has been implicated in the neuronal injury that follows transient cerebral ischemia. To investigate the metabolism of the endogenous excitotoxin, quinolinic acid, and its potential for mediating cell loss following ischemia, the concentrations of quinolinic acid, L-tryptophan, 5-hydroxytryptamine, and 5-hydroxyindoleacetic acid were quantified in gerbil brain regions at different times after 5 or 15 min of ischemia induced by bilateral carotid artery occlusion. Significant elevation of brain tryptophan levels, accompanied by increased 5-hydroxyindoleacetic acid concentrations, occurred during the first several hours of recirculation, but regional brain quinolinic acid concentrations were found either to decrease or remain unchanged during the first 24 h after the ischemic insult. However, significant increases in quinolinic acid concentrations occurred in striatum and hippocampus at 2 days of recirculation after 5 min of ischemia. After a further 4 and 7 days, strikingly large increases in quinolinic acid concentrations were observed in all regions examined, with the highest levels observed in the hippocampus and striatum, regions that also show the most severe ischemic injury. These delayed increases in brain quinolinic acid concentrations are suggested to reflect the presence of activated macrophages, reactive astrocytes, and/or microglia in vulnerable regions during and subsequent to ischemic injury. While the results do not support a role for increased quinolinic acid concentrations in early excitotoxic neuronal damage, the role of the delayed increases in brain quinolinic acid in the progression of postischemic injury and its relevance to postischemic brain function remain to be established.
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PMID:Delayed increases in regional brain quinolinic acid follow transient ischemia in the gerbil. 169 82

Extracellular concentrations of ascorbic acid, glutathione, cysteine, uric acid, tyrosine, and tryptophan were monitored using intracerebral microdialysis in the left frontoparietal cortex of spontaneous hypertensive rats before, and for 3 h after, either focal ischemia [left middle cerebral artery occlusion (MCAO)] or sham operation. The size of the ischemic area and the position of the microdialysis probe were checked using the enzyme histotopochemical acid phosphatase reaction. The probe was always located in the cortex inside the stained area. Ascorbic acid levels rose immediately after MCAO and remained at about 12-fold for 3 h. There was a transient release of glutathione during 1-1.5 h. Uric acid concentrations were also increased but the differences did not reach significance. The levels of the amino acids tyrosine and tryptophan increased steadily after MCAO. The increases in cysteine were variable but significant. In some experiments, the pH of the dialysate was measured online. The parameters ascorbic acid, glutathione, cysteine, and pH are suitable for the early detection of cortical ischemic events by microdialysis.
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PMID:Extracellular antioxidants and amino acids in the cortex of the rat: monitoring by microdialysis of early ischemic changes. 172 46

Ascorbic acid, cysteine, glutathione, uric acid, tyrosine and tryptophan were quantified in samples of frontoparietal cortex, striatum, hippocampus and cerebellum from both sides of rat brain 0.5 h, 4 h and 24 h after focal ischemia. Cysteine, tyrosine and tryptophan were increased in cortex and striatum at 0.5 h, returning afterwards to normal. Uric acid was increased, whereas ascorbic acid and glutathione were correspondingly decreased. Although changes can be explained primarily by energy failure they are also consistent with free radical activity during early stages of ischemia.
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PMID:Levels of low molecular weight scavengers in the rat brain during focal ischemia. 181 35

In order to evaluate the importance of glycogen for the hepatic tolerance to ischemia, livers of swine fed a glucose-potassium solution for premedication were perfused with either Bretschneider's HTK-solution (histidine-tryptophan-ketoglutarate) or with Euro-Collins-solution (EC) prior to subsequent ischemia at 25 and 5 degrees C. During ischemia, in regular intervals or continuously, energy rich phosphates, lactate, intrahepatic pH and the electrical impedance of liver tissue were determined. The results were compared with corresponding data from swine which had starved for 48 h. Corresponding to the higher glycogen content, energy supply during ischemia was markedly improved by the premedication. Despite high amounts of glucose in the EC-solution, energy supply after glucose-potassium premedication was no better with EC-solution than with HTK-solution. Moreover, glucose uptake led to concomitant cellular water uptake. Electrical impedance measurements during ischemia mirrored improved energetical protection by the glucose-potassium premedication.
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PMID:Glycogen effects on energy state and passive electric properties of liver during protection. 211 13

The concentration of 18 alpha-amino acids (AAs) in plasma and renal cortical cell water were measured 3 or 24 hr after 1 hr of unilateral renal artery clamping or 24 or 48 hr after 15 mg/kg body weight HgCl2 injection sc as a test of epithelial integrity. Cellular glycine (Gly), hydroxyproline (Hpr), ornithine (Orn), phenylalanine (Phe), serine (Ser), and tryptophan (Trp) concentrations were depressed 24 hr after HgCl2 (p less than 0.05), but the remaining 12 AAs were not distinguishable from control despite the presence of severe renal failure. ARginine (Arg), glutamic acid (Glu), and valine (Val) also were decreased (P less than 0.05) 24 hr later, but concentrations of half of all measured AAs were still normal. Cellular alanine (Ala), Arg, Glu, Gly, Phe, and Ser concentrations were decreased 3 hr after ischemia, p less than 0.05, but 12 AAs were unchanged and only Arg, Phe, Ser, and threonine (Thr) were reduced 24 hr after ischemia was reversed. Concentrations of even the most affected AAs remained notably higher than in plasma in both forms of acute renal failure (ARF). Total loss of AAs from a small proportion of tubular cells would be hidden by essentially normal concentrations in the rest, and such losses may well have occurred. Unless cellular AAs in ARF are almost completely bound, however, the well-maintained cell:plasma AA concentration ratios indicate that cellular energetics were adequate for AA uptake and that epithelial permeability to AAs in the vast majority of cells was not greatly disturbed. Such findings suggest that most of the epithelium, although seriously damaged, had remained viable.
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PMID:Renal epithelial amino acid concentrations in mercury-induced and postischemic acute renal failure. 221 14

The eosinophilia-myalgia syndrome associated with the ingestion of L-tryptophan was recognized in late 1989. We describe our pathologic study of skin, fascial, and muscle biopsies from 21 patients evaluated by light microscopy, histochemistry, and electron microscopy. A perivascular, lymphocytic infiltrate with eosinophils was present in the dermis, fascia, and skeletal muscle. Lymphocytic infiltration of arteries and arterioles was seen. Ultrastructurally, capillary and arteriolar endothelial cell thickening and necrosis was present. This microangiopathy suggests that ischemia may be a contributing factor to the findings in this syndrome.
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PMID:Microangiopathy in the eosinophilia-myalgia syndrome. 227

After portacaval shunt in the rat, the transport of tryptophan and other neutral amino acids across the blood-brain barrier is enhanced. To determine the role of NH3 in the intracerebral transfer of tryptophan and serotonin metabolism, solutions containing either saline or NH3 or tryptophan or NH3 + tryptophan together were infused, respectively, into the internal carotid artery of rats in order to achieve blood levels similar to those observed after liver ischemia. After tryptophan infusion, a significant increase in the hypothalamic levels of tryptophan and 5-hydroxyindoleacetic acid was observed. A similar increment was found after NH3 infusion. NH3 + tryptophan infusion induced a significant increment in hypothalamic tryptophan and 5-hydroxyindoleacetic acid levels which were 2-fold greater than after tryptophan infusion. There was no significant change in 5-hydroxytryptamine levels in any of these experiments. Glutamine levels increased significantly after NH3 infusion. When tryptophan and NH3 were infused simultaneously, a significant reduction in glutamine levels occurred. These results cannot be explained by any modification of cerebral blood flow nor of the cerebral intercellular pH. Our data suggest that NH3 enhances the transfer of tryptophan across the blood-brain barrier and thus stimulates serotonin metabolism. The mechanism by which tryptophan transfer across the blood-brain barrier is facilitated is unknown. The reduction in glutamine levels in the hypothalamus when NH3 and tryptophan are infused together may be explained either by an inhibition of synthesis or by an intercellular influx of neutral amino acids and an efflux of glutamine as suggested by James et al.
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PMID:Evidence for the role of ammonia in the intracerebral transfer and metabolism of tryptophan. 242 70

During the period of recirculation following transient global ischemia, an initial hyperemia is succeeded by a secondary decrease in cerebral blood flow, termed "delayed postischemic hypoperfusion." It has been suggested that this phenomenon can lead to additional brain damage after the initial ischemic insult. One proposed mechanism of delayed postischemic hypoperfusion is increased cerebrovascular smooth muscle tone. Release of vasoactive amines, formation of vasoactive products of arachidonic acid metabolism, and disturbance of calcium ion homeostasis in cerebrovascular smooth muscle may contribute to postischemic vasoconstriction. In this study, monoamine metabolism following transient global ischemia was investigate. Mongolian gerbils subjected to 15 minutes of temporal bilateral common carotid artery occlusion and up to 6 hours of recirculation were employed as a model of transient global ischemia. In this model, secondary energy failure reportedly occurs after 6 hours of recirculation. Regional cerebral concentrations of monoamines and their metabolites were determined by high-performance liquid chromatography with electrochemical detection. After 4 to 6 hours of recirculation, accumulation of vasoactive amine, 5-hydroxytryptamine, its major metabolite, 5-hydroxyindole acetic acid, and its precursor amino acid, tryptophan were detected. This finding strongly suggests a postischemic increase in both synthesis and release of this amine, which may explain postischemic vasoconstriction. Moreover, increased dopamine synthesis and release after 1 hour of recirculation was suggested. As dopamine release is reported to increase cerebral glucose utilization, its elevation may contribute to an increase in cerebral energy demand after ischemia. Thus, the brain becomes relatively ischemic and secondary ischemic cell damage occurs.
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PMID:[Monoamine metabolism after transient global ischemia. Mechanism of delayed postischemic hypoperfusion]. 248 87

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