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)

Neural injury due to ischemia and related insults is thought to involve the action of excitatory amino acids at N-methyl-D-aspartate receptors, which results in the influx of extracellular Ca2+ and the generation of nitric oxide. Because ethanol inhibits physiologic responses to excitatory amino acids, we examined its effect on toxicity induced by N-methyl-D-aspartate and by the nitric oxide donor sodium nitroprusside in neuron-enriched cultures prepared from rat cerebral cortex. Both N-methyl-D-aspartate and sodium nitroprusside were cytotoxic, as measured by the release of lactate dehydrogenase and by microfluorescent determination of cell viability. Ethanol (3-1,000 mM) protected cultures from N-methyl-D-aspartate but not sodium nitroprusside toxicity, and the ability of a series of n-alkanols to reproduce the effect of ethanol was related to carbon-chain length. Neuroprotection by ethanol was accompanied by a decrease in the N-methyl-D-aspartate-evoked elevation of free intracellular Ca2+ and did not appear to involve gamma-aminobutyric acid- or cyclic GMP-mediated mechanisms. These findings suggest that ethanol inhibits excitotoxicity at an early step in the N-methyl-D-aspartate signaling pathway, probably by reducing Ca2+ influx, and not by interfering with the action of nitric oxide.
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PMID:Ethanol and excitotoxicity in cultured cortical neurons: differential sensitivity of N-methyl-D-aspartate and sodium nitroprusside toxicity. 143

Although significant morbidity and mortality have been associated with the combined use of cocaine and ethanol, the cardiovascular effects of this combination are unknown. In this study, the effect of ethanol on cocaine-induced cardiovascular alterations was examined in two groups (n = 8 each) of dogs, which were randomized to receive either ethanol (1.68 gm/kg intravenously) or saline solution and cocaine (2 mg/kg intravenously). Ethanol had no effect on heart rate, mean arterial pressure, or rate-pressure product; but it increased ventricular end-diastolic pressure (p < 0.05), reduced coronary diameter (p < 0.02), and decreased ejection fraction by 16% +/- 4% (p < 0.005) from baseline. Cocaine produced increases in mean arterial pressure, rate-pressure product, and left ventricular end-diastolic pressure that were similar in both groups. After administration of cocaine, left ventricular ejection fraction decreased 16% +/- 2% (p < 0.001) from the baseline value in controls and 32% +/- 5% (p < 0.0002 vs baseline; p < 0.01 vs controls) in the ethanol group. Coronary diameter decreased (p < 0.05) in both groups after administration of cocaine; however, there was no difference between groups in the response of coronary circulation to cocaine. Cocaine and ethanol depress myocardial function, and their effects are additive. Failure of ethanol to enhance cocaine-induced coronary vasoconstriction suggests that the additive myocardial depressant effect of this combination is not related to ischemia but rather to a direct toxic effect of these drugs. Individuals who combine ethanol and cocaine may be at increased risk of hemodynamic compromise.
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PMID:Additive myocardial depressant effects of cocaine and ethanol. 144 96

Ethanol was injected intraperitoneally to dd-strain mice (20-25 g) with a dose of 5 g/kg body weight. The animals were sacrificed by the cervical dislocation at 4, 8, 12 and 24 hr after the ethanol injection. The changes of the ultrastructure of liver, heart, lung and kidney were examined by a transmission electron microscope. The results; from 4 hr to 24 hr after ethanol injection, deposition of fat droplets, swelling of mitochondria, enlargement of rough endoplasmic reticulum and loss of glycogen granules were observed in hepatocytes. Also, the edema of hepatocytes and intravascular hemostasis were found. These changes were aggravated with time course. In the heart, intravascular hemostasis, edema of myocardium, remarkable decrease of glycogen, swelling of mitochondria and appearance of I bands of myocardial fibers were observed. The damage to the myocardium by ethanol injection was similar to that associated with ischemia and anoxia. In the lung and the kidney, at early time after ethanol injection intravascular hemostasis and cell edema were observed but no other electron microscopical changes were found during the experiment. At 4 hr and 24hr after ethanol injection the edema of sinusoidal endothelial cell of liver and at 24hr that of endothelial cell of capillaries of heart were observed. These histological results suggest that the cell damages and intravascular hemostasis would be caused mainly by a direct action of ethanol. The damages of the liver and the heart, however, on the time blood ethanol was not detected would be caused by the disturbance of metabolism owing to ethanol oxidation.
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PMID:[Ultrastructural changes of liver, heart, lung and kidney of mice in a large dose of ethanol injection]. 158 89

The production of oxygen free radicals can be stimulated by excess iron, cadmium, nickel, and the like. Inversely, copper, zinc, and selenium inhibit production, either via their own action or via antiradical metalloenzymes. The study involved determining the effect of zinc deficiency combined with chronic ethanol administration on the status of blood and tissue free radicals, as well as on cardiac function in isolated, perfused rats' hearts. Animals were fed a basic diet containing residual zinc at 0.2-0.3 ppm. Following a zinc deficiency lasting 5 wk, which during the last 4 wk was accompanied by chronic ethanol administration, hearts were submitted to ischemia for 30 min in vitro, followed by reperfusion. Biochemical analyses (zinc, superoxide dismutase, malondialdehyde, conjugated dienes, and so on) were performed in the blood and in the homogenates of different organs. The experimental zinc deficiency caused a slight decrease of superoxide dismutase activity, accompanied by increased production of peroxidated lipids. Ethanol administration appeared to increase the levels of peroxidated lipids in the heart. Finally, the combination of zinc deficiency and ethanol administration had very harmful effects, especially on lipid peroxidation and contractile function of the isolated, perfused heart in preischemic conditions.
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PMID:Zinc deficiency, ethanol, and myocardial ischemia affect lipoperoxidation in rats. 172 83

This study evaluates the effects of ethanol (blood levels of 200 mg/dl for one hour) and dimethyl sulfoxide (DMSO) on cerebral lesion volumes after pressure-induced focal ischemia during normotension and induced hypotension in the canine. This experimental design simulates the situation where an individual imbibes two to four alcoholic drinks over a one-hour period, then drives a motor vehicle, and suffers a head injury either without significant blood loss or where the cerebral perfusion pressure is reduced to the lower limits of autoregulation (mean arterial pressure of 50 mm Hg). Ethanol was shown to increase brain lesion volumes in both the normotensive (4.5 +/- 0.7 cm3) and hypotensive (14.9 +/- 2.2 cm3) groups when compared to controls (0.8 +/- 0.3 and 2.9 +/- 0.4 cm3, respectively). DMSO markedly attenuated this response in the normotensive and hypotensive ethanol groups. It is thought that the intermediate metabolites of ethanol provide a large source of hydroxyl-free radicals in the presence of neuronal tissue damage and that these free radicals are effectively scavenged by DMSO.
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PMID:An experimental study of craniocerebral trauma during ethanol intoxication. 375 24

The effects of acute (3 g/kg i.p. two hours before sacrifice) and chronic (6% in drinking water and libitum for 15 days) ethanol administration to male rats (200 g body weight) on basal levels and release of TxB2 and 6-keto-PGF1 alpha in brain cortex were studied. Also the effects of chronic ethanol (30 days) on the fatty acid composition of brain cortical tissue and liver phospholipids were investigated. Acute treatment reduced basal levels of 6-keto- PGF1 alpha in brain cortical tissue (rats sacrificed by microwave radiation) and decreased the accumulation of 6-keto-PGF1 alpha in brain cortex after post-decapitation ischemia (PDI). Basal TxB2 levels were also reduced in brain cortex, but TxB2 release during PDI was enhanced. Chronic treatment (15 days) induced changes of TxB2 and 6-keto-PGF1 alpha levels and release during PDI in brain cortex less pronounced than those observed after acute treatment. The reduced effectiveness of chronic ethanol on brain vasoactive eicosanoids suggest adaptation processes. After chronic treatment (30 days), the fatty acid composition of brain cortex total phospholipids were not significantly modified. Changes of eicosanoid production after ethanol were thus independent from modifications of the fatty acid precursor pool(s). Ethanol-induced changes in the production of vascular eicosanoids in the CNS may be of relevance to the action of the compound on the CNS and may also have implications for the clinic.
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PMID:Effects of acute and chronic ethanol administration on thromboxane and prostacyclin levels and release in rat brain cortex. 390 Nov 22

Dopamine, ethanol, and mannitol were investigated to determine if they could increase pulmonary blood flow and oxygen delivery without significantly increasing intrapulmonary shunt. These drugs were studied in adult patients with respiratory distress following trauma, operation, or sepsis. Intravascular pressure, cardiac output, oxygen consumption and delivery, and limb blood flow and peripheral oxygen delivery were measured in all patients. Hypotensive patients received dopamine in incremental doses of 2 mu g/kg/min until either mean arterial pressure increased 15 mm Hg or heart rate increased by more than 15 beats/min. Ethanol was given as 10% ethanol in 5% dextrose at 2 ml/kg/hr. Mannitol was given as 25 gm of a 25% solution in a single bolus followed by infusion of 8 to 25 gm of 20% solution (mean 10 +/- 2 gm) as a continuous intravenous drip over 1 hour. No drug produced a significant change in intrapulmonary shunt. Ethanol produced significant (p less than 0.05) increases in cardiac index, heart rate, oxygen consumption, and oxygen delivery. Dopamine significantly decreased pulmonary vascular resistance while increasing systemic blood pressure. Visceral blood flow apparently increased while the peripheral vascular response to ischemia remained intact. Mannitol increased oxygen delivery and consumption in both the total body and limb. Thus in patients with adult respiratory distress syndrome (ARDS), increases in pulmonary blood flow can be achieved with several distinct pharmacologic agents without significant increases in intrapulmonary shunt. These increases in flow are generally accompanied by increases in oxygen delivery without increased pulmonary vascular resistance.
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PMID:Effects of dopamine, ethanol, and mannitol on cardiopulmonary function in patients with adult respiratory distress syndrome. 678 9

The aim of the present study was to determine whether calcium channel antagonists attenuated hypoxia/hypoglycemia- or glutamate-induced reduction in 2-deoxyglucose (2-DG) uptake of hippocampal slices obtained from ethanol withdrawal rats. Ethanol withdrawal significantly potentiated the hypoxia/hypoglycemia- and glutamate-induced reductions in 2-DG uptake of hippocampal slices. Both nifedipine and flunarizine exhibited attenuating effects on ethanol withdrawal-induced potentiation of impairment of 2-DG uptake caused by hypoxia/hypoglycemia or glutamate. Hypoxia/hypoglycemia-induced deficit of 2-DG uptake was prevented by ethanol, but chronic consumption of ethanol resulted in the development of tolerance to neuroprotective effect. These findings suggest that the increased sensitivity of neurons to ischemic damage by ischemia may involve in the increased activity of calcium channels in the hippocampus.
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PMID:Calcium channel blockers improve hypoxia/hypoglycemia-induced impairment of rat hippocampal 2-deoxyglucose uptake in vitro after ethanol withdrawal. 760 47

One of the ulcerogenic mechanisms by which ethanol induces mucosal lesions in the stomach is the depression of gastric mucosal blood flow (GMBF). The goal of this study was to determine whether lesion formation is the result of vascular ischemia alone or ischemia combined with congestion. The aims of this study were to answer this question by evaluating the relationship between GMBF, oxygen saturation (ISO2) and hemoglobin volume (IHb) in the gastric mucosa under the influences of ethanol and prostaglandin E2 (PGE2) in the ischemic and congestive states, using a laser Doppler flowmeter and tissue spectrum analyzer. Ligation of the gastric celiac artery or vein markedly decreased the GMBF and the ISO2 level. The former procedure also reduced but the latter increased the IHb level. Ethanol administration produced effects similar to venous ligation, i.e. vascular stasis with ischemia. There was a negative correlation between GMBF and severity of lesion formation after ethanol administration. However, at the lesion site all the hemodynamic parameters were significantly reduced, indicating that a necrotic condition had occurred. PGE2 preincubation (25 micrograms) elevated GMBF, ISO2 and IHb levels. It also alleviated the reduction of blood flow induced by ethanol and increased the recovery rate of GMBF and ISO2 after the release of arterial or venous ligation. It is concluded that the decrease in blood flow due to ethanol is probably caused by constriction of venules rather than arterioles inside the mucosa, and this effect could lead to vascular congestion. PGE2 probably dilates both arterioles and venules in the gastric mucosa and thereby increases the blood flow in the gastric mucosa.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Assessment of hemodynamic changes in rat stomachs by laser Doppler velocimetry and reflectance spectrophotometry. Effects of ethanol and prostaglandin E2 under ischemic and congestive conditions. 770 51

Neutrophils have been identified to play a major role in ischemia/reperfusion injury through several mechanisms. Neutrophil migration into reperfused gut may reduce bacterial translocation, but may also enhance the reperfusion injury. Ethanol ingestion impairs cutaneous chemotaxis, but its effects on neutrophil migration to postischemic small bowel are unknown. This study investigates the effects of ethanol on small bowel accumulation of neutrophils after ischemia/reperfusion. Ninety-five rats were divided into five groups; normal control, sham operation, ethanol-sham, ischemia, and ethanol-ischemia groups. Ethanol was given once acutely by gavage (3 g/kg, 20% solution) to the animals in the ethanol-sham and the ethanol-ischemia groups 4 hr before ischemic injury. Ischemia was produced for 1 hr by placing a vessel loop around the superior mesenteric vessels. After 1 hr, 87% of animals had gut ischemia and the loop was removed. Three hours later the small bowel was examined for necrosis and the reperfused viable small bowel was extirpated for measurement of neutrophil infiltration by colorimetric assay for myeloperoxidase (MPO), an enzyme restricted to neutrophils. Both ethanol and ischemia/reperfusion produced significant independent increase in the MPO activity. When ethanol was given prior to ischemia, the MPO activity was further increased by statistically significant margin. The present study demonstrated that ethanol enhanced the effects of gut ischemia/reperfusion injury on PMN accumulation into the intestinal wall. These observations suggest that ethanol may potentiate ischemic injury to the gut and lead to increased problems when gut blood flow is significantly impaired.
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PMID:Ethanol ingestion potentiates PMN migration into small intestine after ischemia. 772 15


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