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

Progressive cerebral ischemia was induced by blood pressure (BP) reduction in rats during status epilepticus, and the sequence of cerebral functional (EEG, extracellular K+ activity) and metabolic (levels of high energy phosphates, glucose, glucose-6-phosphate, lactate, pyruvate, alpha-ketoglutarate) changes were determined. Very moderate reductions of BP were accompanied by tissue lactate accumulation and a decrease of the rate of re-uptake of K+ extruded during discharges. These changes were pronounced at BP about 50 mm Hg, when also the energy state showed some deterioration, and the EEG activity changed from one of bursts and suppressions into single spikes. At BP about 30 mm Hg EEG activity was abolished, but not until a slightly lower BP level was there a severe energy depletion and a massive K+ release, indicating generalized membrane depolarization. The results show an increased susceptibility to ischemia during seizures with changes of membrane pump function, and energy metabolism appearing at moderate reductions of BP. Concomitant decrease of seizure activity delayed to some extent the development of massive energy failure and membrane depolarization.
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PMID:Effects of reduced cerebral blood flow upon EEG pattern, cerebral extracellular potassium, and energy metabolism in the rat cortex during bicuculline-induced seizures. 49 17

The effect of pretreatment with ouabain (40 microgram/kg, i.v.) on myocardial metabolic and contractile responses to regional ischemia induced by coronary artery ligation was studied in the canine left ventricle. In control dogs, ischemia increased activity of phosphorylase a and the levels of glucose-6-phosphate and lactate, and decreased the levels of glycogen and phosphocreatine, without affecting the levels of adenosine triphosphate, adenosine diphosphate, and adenosine monophosphate (AMP). Ouabain increased the activity of phosphorylase a. In ouabain-treated dogs, ischemia did not further increase the phosphorylase a activity but it increased the epicardial AMP level. Other metabolic responses to ischemia in ouabain-treated dogs were similar to those in control dogs. In control dogs, myocardial contractile force decreased by about 10% after ischemia, but blood pressure and heart rate remained unchanged. Ouabain increased contractile force by about 32%. In ouabain-treated dogs, ischemia decreased contractile force by about 54% without affecting blood pressure and heart rate. It is concluded that ouabain increases the activity of the myocardial phosphorylase a and that the inotropic action of ouabain can be nullified by coronary artery ligation.
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PMID:Effect of ouabain on myocardial metabolic and contractile responses to coronary ligation. 61 33

The behaviour of fuels (glycogen, glucose), of glycolytic pathway intermediates (glucose-6-phosphate, pyruvate) and end-product (lactate), as well as the pool of labile phosphates (ATP, ADP, AMP, creatine phosphate) and the energy charge of the brain were studied in the motor area of the cerebral cortex of beagle dogs. These parameters were evaluated both after various hypoxic conditions (hypoxic hypoxia, hypoxia plus complete or incomplete ischemia) and after 3, 15 or 30 min of post-hypoxic recovery and recirculation. The effect of some drugs (papaverine, UDP-glucose, (-)eburnamonine, suloctidil) following intracarotid perfusion has been evaluated in the various quoted experimental conditions. The tested drugs proved unable to improve the deranged brain metabolism under all the hypoxic conditions. On the contrary, an activating effect of suloctidil and (-)eburnamonine could be observed during the recovery after both hypoxia and hypoxia plus complete ischemia, papaverine being ineffective and UDP-glucose increasing the glycogen synthesis. The drugs proved unable to induce a restitution of the altered brain metabolism after hypoxia plus incomplete ischemia.
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PMID:Drug action on cerebral energy state during and after various hypoxic conditions. 74 71

Myocardium which has been preconditioned by one or several brief episodes of ischemia has much slower energy utilization during a subsequent sustained episode of ischemia. Since preconditioned tissue also is 'stunned', the reduced energy utilization of preconditioned tissue may be due to reduced contractile effort. This study was done to assess whether differences in energy utilization persisted or disappeared under conditions of total ischemia, in vitro, when contractile activity was abolished in both control and preconditioned regions by hyperkalemic cardiac arrest. Preconditioned myocardium was produced in open-chest anesthetized dogs by exposing the circumflex bed to four 5-min episodes of ischemia each followed by 5 min of arterial reperfusion. Non-preconditioned anterior descending bed was used as control myocardium. Hearts were arrested with hyperkalemia after the last reperfusion period in order to reduce or eliminate the effects of contractile activity. Metabolite content was measured in sequential biopsies of the tissue. Large differences in the rate of energy metabolism of the two regions were noted during the first 15 minutes of ischemia. During this time, the preconditioned tissue utilized less glycogen, and produced less lactate, glucose-6-phosphate (G6P), glucose-1-phosphate (G1P), and alpha-glycerol phosphate (alpha GP), than did control myocardium. Moreover, there was a much smaller decrease in net tissue ATP in the preconditioned than in the control tissue. Thus, the decrease in the demand of preconditioned tissue for energy, which has been observed in vivo, persisted despite the elimination of differences in contractile effort between control and preconditioned myocardium. Although the cause of this decrease in energy demand in preconditioned myocardium remains unknown, the present results suggest that it is not due to concomitant stunning.
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PMID:Energy metabolism in preconditioned and control myocardium: effect of total ischemia. 181 Oct 60

Alteration in oxidant-antioxidant balance is a key feature of many common vascular diseases. Using an isolated perfused heart model, we found that (a) xanthine oxidase-derived oxygen radicals contributed to ischemia-reperfusion injury; (b) addition of antioxidants within or outside erythrocytes decreased injury following ischemia-reperfusion; (c) endotoxin pretreatment increased myocardial catalase activity and decreased injury following ischemia-reperfusion; (d) interleukin pretreatment increased myocardial glucose-6-phosphate activity and decreased ischemia-reperfusion injury, and (e) neutrophils mediated tolerance to a subsequent oxidative stress by causing a small oxidant stress that in turn increased antioxidant protection mechanisms.
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PMID:Oxidant-antioxidant balance: some observations from studies of ischemia-reperfusion in isolated perfused rat hearts. 192 11

We have shown previously that preconditioning myocardium with four 5-minute episodes of ischemia and reperfusion dramatically limited the size of infarcts caused by a subsequent 40-minute episode of sustained ischemia. The current study was undertaken to assess whether the same preconditioning protocol slowed the loss of high energy phosphates, limited catabolite accumulation, and/or delayed ultrastructural damage during a sustained ischemic episode. Myocardial metabolites and ultrastructure in the severely ischemic subendocardial regions were compared between control and preconditioned canine hearts. Hearts (four to 10 per group) were excised after 0, 5, 10, 20, or 40 minutes of sustained ischemia. All groups had comparable collateral blood flow. Preconditioned hearts developed ultrastructural injury more slowly than controls; evidence of irreversible injury was observed after 20 minutes in controls but not until 40 minutes in preconditioned hearts. Furthermore, after 40 minutes of ischemia, irreversible injury was homogeneous in controls but only focal in preconditioned myocardium. Preconditioning reduced starting levels of ATP by 29%. Nevertheless, it also slowed the rate of ATP depletion during the episode of sustained ischemia, so that after 10 minutes of ischemia, preconditioned hearts had more ATP than controls. However, after 40 minutes, ATP contents were not significantly different between groups. Preservation of ATP resulted from reduced ATP utilization and was not due to increased ATP production. Accumulation of purine nucleosides and bases (products of adenine nucleotide degradation) was limited in preconditioned myocardium. Accumulation of glucose-1-phosphate, glucose-6-phosphate, and lactate also was reduced markedly by preconditioning, due to reduced rates of glycogen breakdown and and anaerobic glycolysis. We propose that preconditioning reduces myocardial energy demand during ischemia, which results in a reduced rate of high energy phosphate utilization and a reduced rate of anaerobic glycolysis. Either preservation of ATP or reduction of the cellular load of catabolites may be responsible for delaying ischemic cell death.
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PMID:Ischemic preconditioning slows energy metabolism and delays ultrastructural damage during a sustained ischemic episode. 231 95

The effect of flunarizine, a calcium entry-blocker, on the ischemic myocardial metabolism of the open-chest dog heart was examined and compared to that of diltiazem. During ischemia, initiated by ligating the left anterior descending coronary artery, the metabolism of the myocardium switched from aerobic to anaerobic; the levels of glycogen, fructose-1,6-diphosphate (FDP), adenosinetriphosphate and creatinephosphate decreased, and the levels of glucose-6-phosphate (G6P), fructose-6-phosphate (F6P), lactate, adenosine diphosphate and adenosine monophosphate increased during 3 min of ischemia. The calculated energy charge potential decreased, and the [( G6P] + [F6P]/[FDP] ratio and the lactate/pyruvate ratio were increased by ischemia. Flunarizine (0.3 or 1 mg/kg) or diltiazem (0.1 mg/kg) was injected i.v. 5 min before the start of ischemia. Pretreatment with either flunarizine or diltiazem reduced the decrease in the energy charge potential and the increase in the [( G6P] + [F6P]/[FDP] ratio during ischemia. Flunarizine (1 mg/kg) and diltiazem (0.1 mg/kg) reduced the accumulation of lactate due to ischemia, leading to a decrease in the lactate/pyruvate ratio. Flunarizine and diltiazem may lessen the influence of ischemia on the myocardial tissue.
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PMID:Effect of flunarizine on ischemic myocardial metabolism in dogs. 276 33

The early natural history of left anterior descending coronary artery occlusion was studied in 35 open-chest anesthetized dogs observed for 6 hours. Six control dogs underwent isolation of the left anterior descending without occlusion, 13 underwent isolated occlusion of the artery to simulate single-vessel disease, and 14 underwent occlusion of the left anterior descending and 50% stenosis of the circumflex coronary artery to simulate multivessel disease. Regional systolic shortening was measured by ultrasonic crystals. Control dogs had a mild fall in cardiac output (27%) and rise in aortic pressure (15 mm Hg). Ischemia produced immediate dyskinesia (-60% of control systolic shortening), and passive lengthening persisted for 6 hours. All dogs with only occlusion of the left anterior descending artery survived (0% mortality). They were less prone to ventricular fibrillation (46% versus 79%, p less than 0.05), developed compensatory hypercontractility of remote muscle (131% of control systolic shortening, p less than 0.05), mild energy and substrate depletion, and anaerobic metabolism (increased glucose-6-phosphate, p less than 0.05) despite maintenance of "normal" blood flow. In contrast, the early mortality rate was 57% (p less than 0.05) when 50% circumflex stenosis coexisted. Intractable ventricular fibrillation and/or cardiogenic shock caused the deaths. Remote muscle became progressively hypocontractile (61% of control systolic shortening, p less than 0.05), with progressive reduction in stroke work index (less than 0.5 gm-m/kg, p less than 0.05). Remote muscle showed moderate substrate and energy depletion (greater than 60% fall of adenosine triphosphate and creatine phosphate, 37% fall of glutamate) and more pronounced evidence of anaerobic metabolism (glucose-6-phosphate rose greater than 400%, p less than 0.05) despite normal blood flow. Mitochondrial ultrastructure and function remained intact in all hearts. These findings suggest that remote muscle is the principal determinant of mortality after an otherwise nonlethal ischemic event. Functional deterioration despite normal blood flow to remote muscle suggests either autoregulatory failure or substrate depletion as a cause of hypocontractility. The structural and functional integrity of mitochondria in ischemic and remote myocardium implies that salvage is possible despite hemodynamic deterioration and intractable ventricular fibrillation.
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PMID:Studies on prolonged acute regional ischemia. III. Early natural history of simulated single and multivessel disease with emphasis on remote myocardium. 277 Mar 19

The CA 1 neurons of the gerbil hippocampus die at 4 days following 5 min of bilateral ischemia. The fiber and somal layers of the CA 1 region of the gerbil hippocampus were analyzed for high-energy phosphates, glucose-related metabolites, and amino acids from 0.75 hr to 4 days of postischemia. The results were compared to those from two layers of the CA 3 region and the cerebral cortex. The metabolite changes in the fiber layers of the CA 1 region were qualitatively similar to those in the somal layer. The energy status of the tissues taken from the CA 1 region was never compromised for up to 2 days of recirculation, after which the ATP and P-creatine in the somal layer decreased to 43 and 56% of the control, respectively, whereas the average decreases in the CA 1 fiber layers were only 71 and 88% of the control, respectively. Thus, the high-energy phosphate response of the neuronal elements in the fiber layers was temporally similar to that found in the somal layer of the CA 1 region. The biphasic increases in glycogen, glucose, glucose-6-phosphate, and high-energy phosphates to values greater than the control indicated that the metabolic restoration following transient ischemia is a dynamic process which persists for up to 2 days of recirculation, even in resistant tissues. A similar pattern of delayed changes was observed in glutamate, gamma-aminobutyric acid (GABA), and glutamine, but the change in each amino acid appeared to be independent of the others despite their close metabolic relationship. The delayed decreases in GABA would favor a loss of inhibition to the CA 1 neurons and may be related to the phenomenon of delayed neuronal death.
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PMID:Metabolic alterations in fiber layers of the CA 1 region of the gerbil hippocampus following short-term ischemia: high-energy phosphates, glucose-related metabolites, and amino acids. 318 25

We evaluated the anti-ischemic effect of drugs by using the inhibition of glycolytic flux at the level of the phosphofructokinase (PFK) reaction, caused by ischemia, as an indicator of the oxygen supply/demand ratio in the ischemic myocardium. Ischemia was induced by ligating the left anterior descending coronary artery in the open-chest dog. After 3 min of coronary ligation, the ischemic myocardium was removed. The endocardial portion of the myocardial sample was used to determine the levels of glucose-6-phosphate (G6P), fructose-6-phosphate (F6P) and fructose-1,6-diphosphate (FDP), and the ratio of [( G6P] + [F6P])/[FDP] was calculated in order to assess the rate of glycolytic flux at the PFK stage. Either saline or drug (propranolol, 1 mg/kg; carteolol, 100 micrograms/kg; nadolol, 1 mg/kg; nifedipine, 10 micrograms/kg; diltiazem, 100 micrograms/kg; verapamil, 100 micrograms/kg; and flunarizine, 1 mg/kg) was injected intravenously 5 min before coronary ligation. In the saline-treated heart, ischemia increased the levels of G6P and F6P, whereas it decreased the level of FDP. The ratio of ([G6P] + [F6P])/[FDP] was increased by ischemia from 2.2 to 23.6, suggesting the inhibition of glycolytic flux at the level of the PFK reaction. In the drug-treated heart, ischemia increased the levels of G6P and F6P, but the increases were smaller than those in the saline-treated heart. Pretreatment with propranolol, nadolol, diltiazem, verapamil, flunarizine attenuated the increase in the ratio of ([G6P] + [F6P])/[FDP] caused by ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cardiac metabolism as an indicator of oxygen supply/demand ratio. 336 68


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