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)

Persistent alterations in cellular energy homeostasis may contribute to the brain damage that evolves from perinatal cerebral hypoxia-ischemia. Accordingly, the presence and extent of perturbations in high-energy phosphate reserves were analyzed during hypoxia-ischemia and the early recovery period in the immature rat. Seven-day postnatal rats were subjected to unilateral common carotid artery ligation and hypoxia with 8% oxygen at 37 degrees C for 3 h, an insult that produces damage (selective neuronal necrosis or infarction) of the cerebral hemisphere ipsilateral to the common carotid artery ligation in 92% of animals. Rat pups were quick frozen in liquid nitrogen during hypoxia-ischemia and at 10, 30, and 60 min and 4 and 24 h of recovery for enzymatic, fluorometric analysis of phosphocreatine (PCr), creatine, ATP, ADP, and AMP. During hypoxia-ischemia, PCr, ATP, and total adenine nucleotides were decreased by 87, 72, and 50% of control, respectively. During recovery, PCr, ATP, and total adenine nucleotides exhibited a rapid (within 10 min) although incomplete and heterogeneous recovery that persisted for at least 24 h. Mean values for PCr remained between 55 and 85% of control, whereas ATP values remained between 57 and 67% of control. Individual ATP values were inversely related to tissue water content at 10 min of recovery, indicating a close correlation between failure of energy restoration and the extent of cerebral edema as a reflection of brain damage. Thus high-energy phosphate reserves display lingering alterations during recovery from hypoxia-ischemia. The interanimal variability in energy restoration presumably reflects the spectrum of brain damage seen in this model of perinatal cerebral hypoxia-ischemia.
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PMID:Cerebral energy metabolism during hypoxia-ischemia and early recovery in immature rats. 155 74

To further define the relationship between oxygen dependence of lung injury during ischemia and ischemia-reperfusion, we used the isolated, perfused, and ventilated rat lung model, so that oxygenation and perfusion could be separated. During ischemia, lungs were ventilated with various oxygen concentrations and then ventilated with 95% oxygen during the 60-min reperfusion period. Other lungs were ventilated with 0% oxygen (nitrogen) during ischemia, and the reperfusion phase oxygen concentration was varied. Tissue and perfusate lipid peroxidation products (thiobarbituric acid-reactive substances and conjugated dienes), dry-to-wet weight ratio, and lactate dehydrogenase were measured as indexes of lung damage. In addition, electron microscopy of some lungs was performed. Results demonstrate an oxygen dependence of lipid peroxidation in both the ischemic and reperfusion phases, but lipid peroxidation is severalfold greater in the reperfusion than in the ischemic phase. Products of lipid peroxidation closely correlate with indexes of lung injury (dry-to-wet weight ratio, lactate dehydrogenase, and electron microscopy).
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PMID:Oxygen-dependent reperfusion injury in the isolated rat lung. 159 38

Considerable evidence has accumulated that oxygen free radicals play a major role in ischemic injury, particularly when followed by reperfusion. Few reports have demonstrated the occurrence of oxidative damage during the ischemic period, itself. Our laboratory has demonstrated that events occurring during an ischemic period with adequate oxygen supply can mimic the "oxygen paradox," using lipid peroxidation as an index of oxidative stress and lung edema as an index of tissue injury. The present study compares lipid peroxidation and oxidation of soluble (100,000g supernatant) protein during ischemia and reperfusion in isolated rat lung model perfused with artificial medium and ventilated with varying alveolar oxygen tension. Protein oxidation was determined by a modified dinitrophenylhydrazine (DNPH) method using Sephadex G-25 column chromatography to isolate the DNPH bound proteins. Global ischemia was produced by discontinuing perfusion while ventilation continued with gas mixtures containing 5% CO2 and a fixed oxygen concentration between 0 and 95%. After 1 h ischemia in the isolated rat lung ventilated with 20% oxygen, protein carbonyls and thiobarbituric acid reactive substances (TBARS) increased significantly compared with controls. These changes were more pronounced after 60 min of reperfusion with 95% oxygen in the ventilation gas. With 0% oxygen (95% nitrogen and 5% CO2) content of the ventilating gas during ischemia, TBARS and protein carbonyls remained at the control level. The wet/dry weight ratio showed changes parallel to the indices of tissue oxidation. The presence of 5,8,11,14-eicosatetraynoic, an inhibitor of cyclooxygenase and lipoxygenase pathways, in the perfusate had no effect on the generation of protein carbonyls although inhibition of lipid peroxidation was demonstrated. This implies that the oxidation of soluble protein is not mediated by the eicosanoid metabolic cascade. These data indicate that oxidative processes occur during ischemia and are dependent on the alveolar oxygen concentration. Oxidation of soluble protein can be used as an index of oxidative damage during lung ischemia and reperfusion.
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PMID:Role of oxygen in oxidation of lipid and protein during ischemia/reperfusion in isolated perfused rat lung. 160 29

Preimplantation preparation of cardiac valves includes three major steps: (1) harvesting with accompanying ischemia (warm time from cessation of donor heart beat), (2) antibiotic disinfection, and (3) controlled-rate cryopreservation. To define the interdependent injury effects of these manipulations on leaflet matrix cells and specifically the potential for prolonged harvest-related ischemia to predispose greater injury by the subsequent steps, 96 semilunar valves were harvested from pigs in a manner analogous to human heart valve retrievals and randomly allocated to study groups as follows: 48 control valves were exposed to increasing harvested-related ischemic times, (2, 6, 12, 24 hr) and immersed in liquid nitrogen to arrest metabolic activity (i.e., prior to cryopreservation) and conclude the ischemia; another 48 were similarly harvested, subjected to identical ischemic times, then disinfected in 4 degrees C RPMI medium with standard antibiotics for 24 hr and dimethylsulfoxide cryopreserved at -1 degrees C/min to -170 degrees C (i.e., formal cryopreservation protocol). At thawing, each valve was extracted in 12% trichloroacetic acid and assayed by high performance liquid chromatography for components of the adenine nucleotide pool including ATP, lower energy nucleotides (total adenine nucleotides, [TAN] = [ATP] + [ADP] + [AMP]), adenosine, and the diffusible purines. Results are reported as nanomoles metabolite/milligram of leaflet cell protein (Lowry) and reflect a maintenance of total high energy phosphates in the control groups (5.41 +/- 0.29 nmole TAN at 2 hr; 8.34 +/- 0.67 nmole TAN at 24 hr), which fell significantly in all cryopreserved groups (1.27 +/- 0.33 nmole TAN at 2 hr; 0.34 +/- 0.22 nmole TAN at 24 hr).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High energy phosphate depletion in leaflet matrix cells during processing of cryopreserved cardiac valves. 161 17

Fetal ischemia or hypoxia can lead to cerebral palsy, mental retardation and epilepsy. We propose that the production of nitric oxide and oxygen radicals by neurons when ischemic or hypoxic brain is reperfused may contribute to cerebral injury. Ischemia will depolarize neuronal membranes causing the synaptic discharge of the excitatory neurotransmitter glutamate, which in turn opens the voltage-dependent, N-methyl-D-aspartic acid-specific glutamate receptor/ionophore, allowing calcium to accumulate in the neuron. Calcium in turn activates an oxygen-dependent neuronal nitric oxide synthetase, which oxidizes arginine to produce nitric oxide (.NO) when oxygen is readmitted to brain by reperfusion. Nitric oxide reacts with the oxygen radical superoxide (O2-), also produced by reperfusion, to form peroxynitrite (ONOO-). Peroxynitrite can diffuse for several micrometers before decomposing to form the powerful and cytotoxic oxidants hydroxyl radical and nitrogen dioxide. The hypothesis is consistent with available evidence on the protective action of glutamate antagonists and of oxygen radical scavengers for limiting cerebral infarction following focal ischemia.
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PMID:The double-edged role of nitric oxide in brain function and superoxide-mediated injury. 167 55

We studied the effects of transforming growth factor-beta (TGF-beta), tissue plasminogen activator (tPA), and their combination in cats subjected to splanchnic artery occlusion (SAO) with reperfusion. Untreated anesthetized cats subjected to total occlusion of the celiac, superior, and inferior mesenteric arteries for 120 min, followed by reperfusion, uniformly died within 120 min after reperfusion. The mean survival time was 75 +/- 8 min. Plasma amino-nitrogen concentrations and cathepsin D and myocardial depressant factor (MDF) activities were markedly elevated following reperfusion. Superior mesenteric artery (SMA) rings isolated from cats subjected to SAO with reperfusion exhibited a significant loss of vasorelaxation to the endothelium-dependent dilators acetylcholine and A-23187. Administration of tPA (1 mg/kg) intravenously just before reperfusion did not prolong survival time (81 +/- 10 min) nor did it influence any biochemical or cardiovascular responses following reperfusion or ameliorate the depressed endothelium-dependent relaxation of SMA rings. In contrast, TGF-beta (50 micrograms/cat) ameliorated the SAO postreperfusion state in terms of survival rate and plasma MDF activity, and protected against depressed endothelium-dependent relaxation of SMA rings. TGF-beta alone slightly increased the survival time to 102 +/- 11 min. However, combined treatment with tPA (1 mg/kg) and TGF-beta (50 micrograms/cat) preserved endothelium-dependent relaxation and prevented increases in plasma amino-nitrogen more prominently than TGF-beta given alone and significantly increased the survival time to 118 +/- 3 min (p less than 0.01). These results indicate that TGF-beta exerts beneficial effects in SAO followed by reperfusion in cats, and tPA has an augmenting action on some of the beneficial effects of TGF-beta. These findings suggest that TGF-beta alone or in combination with tPA may be potentially useful therapeutic regimens in splanchnic ischemia shock by preserving splanchnic parenchymal and endothelial cells.
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PMID:Beneficial effects of transforming growth factor-beta and tissue plasminogen activator in splanchnic artery occlusion and reperfusion in cats. 171 97

We caused unilateral lung ischemia-reperfusion injury in awake sheep by simultaneously occluding the left pulmonary artery and left main stem bronchus for 12 h. The occluded left lung was inflated with nitrogen. Reperfusion resulted in an elevation of lung lymph flow from 1.3 to 5.0 ml/15 min and an increase in lymph-to-plsma protein concentration ratios. Reperfusion, but not ischemia alone, caused an increase in wet-to-dry weight ratios in both the reperfused left lung and the contralateral right lung. Granulocytes increased in both lungs during the ischemic period and after reperfusion, and hypoxemia developed after reperfusion. The calcium channel antagonist, verapamil, given just before reperfusion, caused a marked attenuation in the reperfusion-induced changes in the lung lymph variables and wet-to-dry weight ratio. However, verapamil did not affect the hypoxemia or granulocyte sequestration seen after reperfusion. We conclude that reperfusion of ischemic sheep lung results in increased microvascular permeability that can be partially prevented by verapamil.
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PMID:Lung ischemia-reperfusion injury in awake sheep: protection with verapamil. 175 81

The effect of induced myocardial ischemia on cardiac glycogen utilization was investigated in trained and untrained male Sprague-Dawley rats. Following a 12 to 15 week endurance training program, myocardial ischemia was induced by ligation of the left coronary artery. Prior to and at 5 min intervals following ligation, affected tissues of five trained and untrained animals were removed, frozen in liquid nitrogen, and analyzed for glycogen and lactic acid. The glycogen content for both groups declined significantly (p less than 0.05) during the first 5 min, 38% and 15% for the trained and untrained, respectively, with a concomitant rise in the lactic acid of 150% and 40%. Overall, the cardiac lactate in the trained hearts was lower (p less than 0.05) than in untrained hearts but the pattern of response was the same. During the final 5 min of ischemia, cardiac glycogen rose in the trained hearts and declined in the sedentary hearts. The difference between the two groups at 30 min was significant (p less than 0.05). The results show that trained and untrained rat hearts utilize glycogen differently but produce similar quantities of lactic acid during brief periods of myocardial ischemia. Similar lactate despite greater glycogen utilization may indicate reduced anaerobic stress in the trained rat heart.
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PMID:Cardiac glycogenolysis in trained and untrained ischemic rat hearts. 179 20

The hypothesis tested is that shifts in pH, induced when a cardioplegic solution is oxygenated, can be detrimental. We added either 100% nitrogen, 95% nitrogen and 5% carbon dioxide, 100% oxygen, or 95% oxygen and 5% carbon dioxide to the cardioplegic solution (St. Thomas' Hospital No. 2 plus glucose 11 mmol/L), and determined postischemic recovery of isolated rat hearts after 3 hours of 10 degrees C cardioplegic protected ischemia. Hearts were arrested and reinfused every 30 minutes throughout the ischemic period with cardioplegic solution. When 5% carbon dioxide was added to nitrogen, the pH of the cardioplegic solution decreased from 9.1 (100% nitrogen) to 7.0 (95% nitrogen: 5% carbon dioxide), a change associated with improved postischemic functional recovery. Aortic output improved from 52.3% +/- 2.7% to 63.9% +/- 2.8%, p less than 0.05, and cardiac output from 60.8% +/- 3.6% to 75.4% +/- 3.3%, p less than 0.01. This improvement was associated with diminished efflux of lactate during ischemia but increased postischemic release of lactate dehydrogenase. When nitrogen was replaced with oxygen, the addition of 5% carbon dioxide resulted in a similar decrease of pH, which again was associated with improved postischemic functional recovery. Aortic output improved from 66.3% +/- 2.8% (100% oxygen) to 88.9% +/- 3.7% (95% oxygen: 5% carbon dioxide), p less than 0.005, and cardiac output from 75.3% +/- 4.1% to 88.9% +/- 2.4%, p less than 0.01. The efflux of lactate during ischemia and the postischemic release of lactate dehydrogenase were similar in both groups. Furthermore, provision of additional oxygen with perfluorocarbons in an electrolyte solution identical to the St. Thomas' Hospital plus glucose solution and oxygenated with 95% oxygen: 5% carbon dioxide conferred no extra protection. In conclusion, the St. Thomas' Hospital No. 2 plus glucose cardioplegic solution should be oxygenated but with 95% oxygen: 5% carbon dioxide and not 100% oxygen because of the additive effect of a relatively "acidotic" pH.
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PMID:Effect of oxygenation and consequent pH changes on the efficacy of St. Thomas' Hospital cardioplegic solution. 844 34

The present study was undertaken to assess the role of oxygen free radicals relating to cell damage upon reoxygenation of the ischemically altered isolated rat liver. Livers were excised and flushed via the portal vein with Ringer's solution and Euro-Collins solution, to which superoxide dismutase (SOD) was added in the experimental group. After warm ischemia at 37 degrees C and cold storage at 4 degrees C, the livers were reperfused via the portal vein with carbogen-saturated Krebs-Henseleit solution. Other livers were subjected to a retrograde persufflation via the infrahepatic caval vein with either oxygen or nitrogen and then rinsed with Ringer's solution. During reperfusion, SOD-treated livers showed markedly reduced vascular resistance, lower enzyme release and enhanced VO2 accordingly, energy charge at the end of reperfusion was significantly higher in the treated group. With reference to the tissue content of malondialdehyde, SOD-treated livers showed significantly less damage than the corroboration for these data. Enzyme activities in the eluate were significantly reduced under anoxic conditions as well as in the presence of SOD. We conclude from these data that oxygen free radicals do exert a detrimental impact on the reoxygenated liver, which could be specifically suppressed by application of exogenous SOD.
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PMID:Involvement of oxygen in harvesting injury of the liver. An experimental study including substrate free organ persufflation to evaluate a specific therapeutic approach. 192 67

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