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

Simultaneous intraperitoneal administration of 700 mg/kg galactosamine and 33 micrograms/kg Salmonella abortus equi endotoxin to male NMRI albino mice resulted in fulminant hepatitis as assessed after nine hours by measurement of serum transaminases as well as sorbitol dehydrogenase activities. Intraperitoneal pretreatment of animals with 2 X 100 mg/kg allopurinol, or intravenous pretreatment with 33 kU superoxide dismutase or 1 MU catalase fully prevented hepatitis. Administration of 10 micrograms/kg of the prostacyclin analogue iloprost antagonized liver injury when given simultaneously with galactosamine/endotoxin but did not protect when given 90 min later. Tocopherol or desferal pretreatment of the animals had no significant protective effect. Together with our recent finding that hepatic leukotriene D4 production is likely to be responsible for galactosamine/endotoxin-induced hepatitis we interpret these results as evidence for a leukotriene-induced hepatic ischemia followed by a reperfusion syndrome.
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PMID:Evidence for the involvement of a reperfusion injury in galactosamine/endotoxin-induced hepatitis in mice. 360 63

Respiratory and phosphorylating capacities of kidney mitochondria were distinctly decreased within early (1.5 hr) and late (1 day) postischemic periods after long-term (2-3 hrs) ischemia of rat kidney. Preadministration of adenine (ADP, AMP) and pyridine (NAD) nucleotides into the animals prevented the decreases, while vitamin E, heparin, trifluoroperazine or aminazine proved to be ineffective. Depletion of mitochondrial nucleotide pool, which occurred during long-term ischemia of kidney and were maintained within the post-ischemic period, appears to be responsible for impairment of oxidative phosphorylation.
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PMID:[Changes in and pharmacological correction of oxidative phosphorylation in regional kidney ischemia]. 376 3

Malonic dialdehyde content was increased by 53% in the myocardium of male Wistar rats (250-300 g) devoid of vitamin E for 2 months, as compared to the control rats (animals receiving an optimal amount of vitamin E). Transitory ischemia (10 min) with subsequent reoxygenation (5 min) was induced during open heart surgery under urethan anesthesia. Ischemia was induced by the occlusion of the descending branch of the left coronary artery. In ischemic rats with vitamin E deficiency the incidence of ventricular fibrillation, tachycardia, extrasystoles and the additive duration of arrhythmias were significantly increased as compared to the control.
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PMID:[Effect of vitamin E deficiency on the development of cardiac arrhythmias as affected by acute ischemia]. 377 71

Compression trauma of the cat spinal cord induces a very rapid alteration in the lipid metabolism of cellular membranes, including lipid hydrolysis with release of fatty acids including arachidonate, production of biologically active eicosanoids, and loss of cholesterol. This disturbance of cellular membranes can directly damage cells and can lead to the secondary development of tissue ionic imbalance, ischemia, edema, and inflammation with neuronophagia. Pretreatment with either the synthetic glucocorticoid methylprednisolone sodium succinate (MPSS) or the antioxidants vitamin E and selenium (Se) completely prevented the loss of cholesterol and partially inhibited lipolysis and prostanoid production. Treatment with MPSS significantly reduced the postinjury tissue necrosis and paralysis. Preliminary evidence indicates that pretreatment with vitamin E and Se also protected against the effects of spinal cord injury (SCI). We speculate that the ability of these agents to preserve function after SCI may, in part, reside in their capacity to limit the trauma-induced changes in lipid metabolism.
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PMID:Lipid hydrolysis and peroxidation in injured spinal cord: partial protection with methylprednisolone or vitamin E and selenium. 383 12

We studied the effect of arachidonic acid on function and CPK release of normal, ischemic and reperfused isolated rat hearts. Under control conditions arachidonate (10 micrograms/ml) produced a transient inotropic effect which gradually reversed during a 90 minute perfusion. Creatinephosphokinase (CPK) release was augmented by arachidonic acid, particularly under high flow (pre-ischemia and reperfusion) conditions. Recovery of contractility following reperfusion of ischemic myocardium was significantly depressed by arachidonic acid. Vitamin E (100 ng/ml) an antioxidant and free radical scavenger, reduced the enzyme leakage and enhanced recovery of contractility of reperfused myocardium. It also prevented the depression in contractility during control perfusion. Similar protective effects were observed by perfusing the heart with reduced calcium but not by nifedipine; a calcium channel blocker, indomethacin; a prostaglandin synthesis inhibitor or nordihydroguarietic acid; a lipoxygenase inhibitor. Arachidonic acid also inhibited membrane Na+/K+-ATPase although it is unlikely that this property mediated its cardiotoxic influence since it was not prevented by vitamin E. In addition, we observed that arachidonic acid increased the coronary resistance of isolated hearts, probably through enhanced calcium influx as this constriction was reduced by low calcium as well as by nifedipine. Thus, arachidonic acid possesses distinct properties. Its cardiotoxic influence is likely mediated by free radical generation.
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PMID:Toxic properties of arachidonic acid on normal, ischemic and reperfused hearts. Indirect evidence for free radical involvement. 392 Jun 82

Subsequent to traumatic injury of the spinal cord, a series of pathophysiological events occurs in the injured tissue that leads to tissue destruction and paraplegia. These include hemorrhagic necrosis, ischemia, edema, inflammation, neuronophagia, loss of Ca2+ from the extracellular space, and loss of K+ from the intracellular space. In addition, there is trauma-initiated lipid peroxidation and hydrolysis in cellular membranes. Both lipid peroxidation and hydrolysis can damage cells directly; hydrolysis also results in the formation of the biologically active prostaglandins and leukotrienes (eicosanoids). The time course of membrane lipid alterations seen in studies of antioxidant interventions suggests that posttraumatic ischemia, edema, inflammation, and ionic fluxes are the result of extensive membrane peroxidative reactions and lipolysis that produce vasoactive and chemotactic eicosanoids. A diverse group of compounds has been shown to be effective in ameliorating spinal cord injury in experimental animals. These include the synthetic glucocorticoid methylprednisolone sodium succinate (MPSS); the antioxidants vitamin E, selenium, and dimethyl sulfoxide (DMSO); the opiate antagonist naloxone; and thyrotropin-releasing hormone (TRH). With the exception of TRH, all of these agents have demonstrable antioxidant and/or anti-lipid-hydrolysis properties. Thus the effectiveness of these substances may lie in their ability to quench membrane peroxidative reactions or to inhibit the release of fatty acids from membrane phospholipids, or both. Whatever the mode of action, early administration appears to be a requirement for maximum effectiveness.
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PMID:Spinal cord injury and protection. 392 95

We have previously demonstrated that the preischemic administration of perfluorochemicals (PFC) in combination with 20% mannitol, vitamin E and dexamethasone is effective in protecting the brain from cerebral ischemia. This experimental study was designed to evaluate the effect and limitation of the post-ischemic administration of those 4 agents on cerebral ischemia. We used "Canine model of complete ischemic brain regulated with a perfusion method." Using this model we were able to control the amount of blood flow to the left cerebral hemisphere by using an infusion pump. Infusion blood volume was reduced to 30%, 40% or 50% of the normal state, then the combined treatment was started 1,2,3,4,5 or 6 hours after the onset of ischemia in each ischemic group. By monitoring the EEG for 8 hours of ischemic period, we were able to evaluate the effect of the drugs on cerebral ischemia. In untreated groups, electrical activity deteriorated gradually. In the 30% ischemia group, the EEG became isoelectric within 1 hour following ischemia. In half of the 40% ischemia group, the EEG became isoelectric but in the other half low voltage slow wave were seen to last for 6-8 hours. In the 50% group, the EEG deteriorated gradually but did not disappear within 8 hours. The effectiveness of the treatment was judged by the degree of the recovery of electrical activity. The effectiveness of the treatment appeared to depend on the severity and the duration of ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Effects of cerebral protective agents in experimental cerebral ischemia. Relationship between the degree of ischemia and EEG]. 393 42

Using an in vitro system, we studied the effect of postischemic reoxygenation on cerebral lipid peroxidation in relation to the dietary intake of vitamin E (VE) in rats. Homogenates prepared from VE-deficient, -normal, and -supplemented brains, which were previously rendered ischemic for 30 min by decapitation, were incubated under air or nitrogen gas for 60 min. The extent of peroxidation in brain tissue was estimated by a thiobarbituric acid (TBA) test and by diene conjugation in total lipid extracts. The brain levels of alpha-tocopherol and of total and free fatty acids (FAs) were also determined. Aerobic incubation increased TBA reactants in all dietary groups; the effect was largest in the VE-deficient group, intermediate in the VE-normal group, and smallest in the VE-supplemented group. In contrast, nitrogen incubation did not alter the basal levels of TBA reactants except for a small rise associated with VE deficiency. Conjugated dienes changed in parallel with TBA reactants. alpha-Tocopherol decreased after aerobic incubation and also, to a lesser degree, after nitrogen incubation in each dietary group. Only in the reoxygenated samples of the VE-deficient group was there a significant fall in total polyunsaturated FAs. The levels of free FAs continuously increased throughout ischemia and subsequent incubation. However, the level of free polyunsaturated FAs was similar after aerobic and nitrogen incubation in each dietary group, and was not affected by VE. Thus, cerebral reoxygenation after ischemia propagates peroxidative reactions within esterified polyunsaturated FAs. The modification by VE of reoxygenation-induced lipid peroxidation suggests free radical mediation.
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PMID:Postischemic cerebral lipid peroxidation in vitro: modification by dietary vitamin E. 398 52

The energy mechanisms of formation of anti-ischemic myocardial resistance have been studied by means of vitamin E, administered to rats 24 hours before modelling ischemia in a dose of 200 mg/kg, in which the antioxidant activity of the preparation is pronounced. At the stage of ischemia, myocardial energy was studied by the differential calorimetry method, in the pre- and postischemic periods on a functioning heart in a stand according to Neely. It is shown, that vitamin E in ischemic and postischemic periods enhances the power and efficiency of myocardial energy consumptions: decreases irrational energy consumptions in the initial period of ischemia (the first 15 minutes) and supports a higher level of energy production further on, increasing thus the admissible periods of myocardial ischemia from 20-25 to 30-35 minutes, maintains in the postischemic period a higher level of total useful energy consumptions and coefficients of the oxygen utilization efficiency as compared with the experiments without preliminary administration of vitamin E. It is shown, that the anti-ischemic defence of the myocardium by vitamin E is formed already in the preischemic period and conditioned by redistribution of energy consumptions and growth of the share of energy consumptions aimed at the maintenance of the initial structural-functional homeostasis of myocardial cells.
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PMID:[Action of vitamin E on the normal myocardial energy balance and in ischemia and reoxygenation]. 408 25

We previously published results of investigations which indicated that the combination of mannitol, which acts as a free radical scavenger, and perfluorochemicals (PFC), which have a strong oxygen-carrying capacity, can be therapeutic in cases of brain infarction. The present experiment tested the hypothesis that the effectiveness of such treatment could be increased by an optimal combination of such scavengers and other chemicals. Fifty-two dogs were used, employing the "canine model of a completely ischemic brain regulated with the perfusion method." A total of six drugs with free radical scavenger capacities were tested: mannitol, vitamin E, vitamin C, Nizofenone (Y-9197), dexamethasone (DEXA) and suloctidil (MY-103). These drugs were administered intravenously 15 minutes prior to the production of ischemia, when cerebral blood flow was reduced to one-tenth its normal volume. After one hour, recirculation was allowed and the recovery of electrical activity of the brain observed for three hours. Judged by the degree of recovery of brain electrical activity, five drugs were considered to have protective effect against brain ischemia: mannitol, vitamin E, MY-103, DEXA and Y-9197. Among these five drugs, mannitol, vitamin E and DEXA are known to be safe and easily used clinically. The combined administration of these three drugs, together with PFC, was also investigated. It was found that the speed and degree of recovery of brain electrical activity were greater when these drugs were given together than when one was administered alone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The protective effect of combined administration of anti-oxidants and perfluorochemicals on cerebral ischemia. 608 1


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