Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0917798 (cerebral ischemia)
17,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The energy metabolism of the brain was measured in three types of ischemic models in the cat using phosphorus-31 magnetic resonance spectroscopy. The cerebral ischemia was produced as follows. In Group 1, two balloons were inflated in the left subclavian artery and the brachiocephalic trunk. In Group 2, the left middle cerebral artery was occluded through a transorbital approach. A combination of the two was employed in Group 3. Phosphorus-31 magnetic resonance spectra were obtained serially during 2 hours of ischemia. Immediately after occlusion, peaks of phosphocreatine and adenosine triphosphate decreased, whereas the peak of inorganic phosphate increased and split in two. Intracellular pH determined by chemical shift of the inorganic phosphate peak decreased. These changes were more pronounced in Group 3 when compared with the other groups. Histological study showed no infarction in Group 1 and infarcted areas in Groups 2 and 3. The size of the infarcted area in Group 3 was larger than that in Group 2. These results suggest that the model of middle cerebral artery occlusion potentiated with the occlusion of the brachiocephalic trunk and the left subclavian artery by balloon catheters is a reliable stroke model and that phosphorus-31 magnetic resonance spectroscopy is useful to understand the pathophysiological state of cerebral ischemia in vivo.
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PMID:Phosphorus-31 magnetic resonance spectroscopy of cerebral ischemia in cats. 238 42

The effects of 3-methyl-1-(5'-oxohexyl)-7-propylxanthine (propentofylline, HWA 285) on transient cerebral ischemia were studied in Mongolian gerbils by measuring the in vivo 31P nuclear magnetic resonance (NMR) spectra and cerebral water content. Transient ischemia was produced by bilateral common carotid artery occlusion for 30 min, which was followed by 60 min of reperfusion. Propentofylline (1, 2.5 or 30 mg/kg) or normal saline was administered intravenously at 2 min after the reperfusion. The 31P spectra during the occlusion showed a marked reduction in adenosine triphosphate (ATP) and phosphocreatine (PCr) with elevation of inorganic phosphate (Pi) in all groups. The intracellular pH (pHi) calculated from the chemical shift of Pi was markedly reduced in all groups. After the reperfusion, ATP, PCr, Pi and pHi gradually recovered towards the normal levels in the control group. In the 2.5 mg/kg propentofylline group, the energy recovery was significantly faster than in the controls. The cerebral water content measured at the end of reperfusion was significantly lower in the 2.5 mg/kg propentofylline group than in the controls. However, such cerebral protective effects were not observed in the 1 mg/kg and 30 mg/kg groups. The present results suggest that propentofylline may accelerate the energy recovery of the transiently ischemic brain and suppress the development of post-ischemic cerebral edema. The effects, however, were not dose-dependent in manner. The detailed mechanism of the effects requires further investigation.
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PMID:Effects of propentofylline on energy metabolism of the ischemic brain studied by in vivo 31P nuclear magnetic resonance spectroscopy. 251 Jul 44

The peculiarities of brain energy metabolism were studied in male rats before and during cerebral ischemia of various severity elicited by bilateral common carotid arteries ligation. A multidimensional analysis was applied. In the rats which died after the ischemia, the NAD + NADH+/phosphocreatine (PCr) ratio and ATP content before ligation were higher than those in the surviving group. Also the strength of relationships between parameters of NMR spectra in each correlation matrix were 10 times higher and the variability of elements in each matrix was significantly lower in victims than those in the surviving group. The development of severe ischemia and the animals death were accompanied by an increase in the inorganic phosphate content, decrease in pH and stepwise disappearing of PCr and ATP. In animals surviving the same brain ischemia model, the changes in 31P spectra parameters pointed to some increase in the ratio of NAD + NADH+ only to ATP + ADP but not to PCr, and to an increase in summarized strength of correlation between 31P spectra parameters with the variability of elements decreased within each correlation matrix. Detection of these changes can be helpful in the diagnosis of mild ischemia without neurological deficit which already needs preventive therapy against more severe ischemia.
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PMID:[Changes in energy metabolism in the brain in experimental cerebral ischemia of different degree of severity (nuclear magnetic resonance-spectroscopic study)]. 260 23

In this review, we assess the role of nuclear magnetic resonance (NMR) spectroscopy as a noninvasive method of studying metabolism in cerebral ischaemia. Phosphorus-31 NMR provides a monitor of intracellular pH and energy metabolites, including ATP, phosphocreatine, and inorganic phosphate, while other nuclei, including 1H, 13C, 19F, and 23Na can give additional information about several aspects of brain metabolism and physiology. For example, 1H NMR not only provides excellent images, but may also be used to monitor a range of metabolites, including lactate and several amino acids. Comparisons are made with the large body of information that is available from more traditional methods of studying metabolism. Emphasis is placed on the correlation of NMR data with parallel measurements of regional blood flow, tissue oxygenation, oedema, electrical activity, and tissue damage. Technical aspects of NMR are discussed where appropriate; for example, in relation to the range of metabolites that are accessible to study, the spatial resolution that is available for studies of focal lesions, problems arising from tissue heterogeneity, and quantification of metabolite levels. Applications in animal models and in humans are discussed; these primarily involve the 31P nucleus, but for the future it appears that 1H NMR studies offer particular promise.
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PMID:Cerebral ischaemia studied by nuclear magnetic resonance spectroscopy. 270 74

The effect of cerebral ischemia on the activity of pyruvate dehydrogenase (PDH) enzyme complex (PDHC) was investigated in homogenates of frozen rat cerebral cortex following 15 min of bilateral common carotid occlusion ischemia and following 15 min, 60 min, and 6 h of recirculation after 15 min of ischemia. In frozen cortical tissue from the same animals, the levels of labile phosphate compounds, glucose, glycogen, lactate, and pyruvate was determined. In cortex from control animals, the rate of [1(-14)C]pyruvate decarboxylation was 9.6 +/- 0.5 nmol CO2/(min-mg protein) or 40% of the total PDHC activity. This fraction increased to 89% at the end of 15 min of ischemia. At 15 min of recirculation following 15 min of ischemia, the PDHC activity decreased to 50% of control levels and was depressed for up to 6 h post ischemia. This decrease in activity was not due to a decrease in total PDHC activity. Apart from a reduction in ATP levels, the acute changes in the levels of energy metabolites were essentially normalized at 6 h of recovery. Dichloroacetate (DCA), an inhibitor of PDH kinase, given to rats at 250 mg/kg i.p. four times over 2 h, significantly decreased blood glucose levels from 7.4 +/- 0.6 to 5.1 +/- 0.3 mmol/L and fully activated PDHC. In animals in which the plasma glucose level was maintained at control levels of 8.3 +/- 0.5 mumol/g by intravenous infusion of glucose, the active portion of PDHC increased to 95 +/- 4%. In contrast, the depressed PDHC activity at 15 min following ischemia was not affected by the DCA treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pyruvate dehydrogenase activity in the rat cerebral cortex following cerebral ischemia. 271 7

Effects of S-adenosyl-L-methionine (SAM) on the metabolism in ischemic brain were investigated. The ischemic model employed was an incomplete cerebral ischemia of the spontaneously hypertensive rat (SHR) produced by the occlusion of both common carotid arteries. One hundred mg/kg of SAM was administered (i.p.) 6 times from the beginning of occlusion at 30 min intervals. At 3 hr after the onset of occlusion, animals were killed by microwave irradiation and creatine phosphate (CrP), ATP, glucose, lactate and gamma-aminobutyric acid (GABA) contents in the brain were measured. SAM significantly mitigated both the reductions in CrP, ATP and glucose levels and the increase in GABA level due to the cerebral ischemia. In another set of experiments with the same experimental schedule, water content in the brain was examined. SAM significantly suppressed the increase in water content due to the cerebral ischemia. These results indicate ameliorating effects of SAM on the metabolism in ischemic brain.
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PMID:S-adenosyl-L-methionine ameliorates ischemic brain metabolism in spontaneously hypertensive rats. 273 57

The sensitivity of cerebral energy metabolism to ischemic and hypoxic stresses following global cerebral ischemia was evaluated in a cat model using 31P nuclear magnetic resonance (NMR) spectroscopic methods. Complete global cerebral ischemia of 5 to 10 min in length was produced at 1 h intervals by reversible arterial occlusion, permitting continuous monitoring of NMR and EEG. Ischemia appeared to produce slightly more severe energy failure in animals that had previously experienced an ischemic injury. Preischemic hypoxia (5% O2 for 5 min) resulted in minor changes in the levels of phosphocreatine and intracellular inorganic phosphate, which were slightly amplified in animals that previously experienced ischemia.
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PMID:Assessment of postischemic cerebral energy metabolism in cat by 31P NMR: the cumulative effects of secondary hypoxia and ischemia. 273 16

1. The present study was designed to determine whether naftidrofuryl oxalate exerts a possible therapeutic effect on brain energy metabolism impaired by microsphere-induced cerebral embolism in vitro. 2. Injection of microspheres into the right carotid canal resulted in a decrease in tissue high-energy phosphates both in the right and left hemispheres, and an increase in tissue lactate in the right hemisphere, on the 3rd and the 5th day after the embolism. The embolism also induced a marked reduction in mitochondrial oxidative phosphorylation ability and succinate dehydrogenase activity. The results suggest that severe ischaemia was induced in the brain by the microsphere administration. 3. Treatment of microsphere-injected rats with naftidrofuryl oxalate (15 mg kg-1) for 3 or 5 days elicited a significant recovery of tissue high-energy phosphate and lactate levels. The recovery was associated with a significant restoration of mitochondrial succinate dehydrogenase activity on the both days and of mitochondrial oxidative phosphorylation rate on the 5th day. 4. The results suggest that naftidrofuryl oxalate is beneficial in the recovery of cerebral energy metabolism impaired by microsphere-induced cerebral ischaemia, presumably through a mechanism involving its direct effect on the cerebral mitochondrial enzyme activities.
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PMID:Possible therapeutic effect of naftidrofuryl oxalate on brain energy metabolism after microsphere-induced cerebral embolism. 281 26

Brain metabolism and intracellular pH were studied during and after episodes of incomplete cerebral ischaemia in lambs under sodium pentobarbitone anaesthesia. 31P and 1H magnetic resonance spectroscopy was used to monitor brain pHi and brain concentrations of inorganic phosphate (Pi), phosphocreatine (PCr), beta-nucleoside triphosphate (beta NTP), and lactate. Simultaneous measurements were made of arterio-cerebral venous concentration differences (AVDs) for oxygen, glucose, and lactate. Cerebral ischaemia was induced by a combination of bilateral carotid clamping and hypotension, and the acute effects of systemic administration of glucose and sodium bicarbonate were examined. The molar ratio of glucose to oxygen uptake by the brain (6G/O2) increased above unity during cerebral ischaemia. Statistically significant AVDs for lactate were not observed. Cerebral ischaemia was associated with a reduction in brain pHi PCr/Pi ratio, and an increase in brain lactate. No effect of arterial plasma glucose on brain lactate concentration or brain pHi was evident during cerebral ischaemia or in the postischaemic period. Administration of sodium bicarbonate systemically in the postischaemic period was associated with a rise in arterial and brain tissue PCO2. A fall in brain pHi occurred which was attributable in part to coincidental brain lactate accumulation. The increase in brain lactate measured by 1H nuclear magnetic resonance in vivo during ischaemia was insufficient to account for the change in buffer base calculated to have occurred from previous estimates of brain buffering capacity.
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PMID:Brain metabolism and intracellular pH during ischaemia: effects of systemic glucose and bicarbonate administration studied by 31P and 1H nuclear magnetic resonance spectroscopy in vivo in the lamb. 283 11

Brain cell membranes are known to abound in polyphosphoinositides (PPI) which contain large amounts of arachidonic acid and stearic acid. When a state of cerebral ischemia comes about, there occurs severe energy depletion and decomposition of PPI into diglyceride (DG) and inositol triphosphate (IP3) through activation of phospholipase C. Previous studies clarified rapid postischemic degradation of PPI, a time during which the metabolically active fraction of PPI is lost, but there have been no reports on PPI metabolism after the establishment of recirculation following ischemia. The authors examined relationship between the duration of the ischemia and the reversibility of PPI metabolism in rats with cerebral ischemia lasting 5 or 30 min that was followed by recirculation, and, further studied acyl group composition of PPI and DG in rats with 30 min of ischemia. Global cerebral ischemia was produced in male Wistar rats (220-250 g) by occlusion of basilar and bilateral common carotid arteries. The brains were frozen in situ at 1, 5, or 30 min of ischemia, or at 30 or 60 min of recirculation following either 5 or 30 min of ischemia. Phosphatidylinositol (PI), phosphatidylinositol, 4-phosphate (PIP), phosphatidylinositol, 4, 5-bisphosphate (PIP2), and DG were measured by TLC, and GLC. And also their acyl group compositions were determined. PI showed no significant changes. In contrast, both PIP and PIP2 sharply decreased immediately after onset of cerebral ischemia. then continued to fall gradually from 5 min onwards. And PIP and PIP 2 increased after onset of recirculation in both 5 and 30 min ischemia groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Polyphosphoinositide metabolism in temporary cerebral ischemia--the reversibility after recirculation]. 285 44


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