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)

The ability of anipamil, a calcium channel blocker, to protect ischemic myocardial tissue was investigated in pentobarbital anesthetized cats. Two bolus injections of anipamil (1.0 mg/kg i.v.) or their vehicle (i.e., 95% ethanol) were given 30 and 150 min post-ligation of the left anterior descending coronary artery. Anipamil significantly reduced the elevated S-T segment elevation and T wave amplitude suggesting a moderating influence on cellular ischemia. The drug also significantly blunted the loss in myocardial creatine kinase activity and amino-nitrogen concentrations from ischemic myocardial tissue, compared to cats receiving only the vehicle. These changes are suggestive of a cardioprotective effect of this calcium channel blocker. Since no significant change in the pressure rate index was seen with anipamil, a decrease in myocardial oxygen demand does not appear to be the major mechanism of the cardioprotective action of the agent. Therefore, anipamil protected the heart from ischemic damage, possibly by a direct cytoprotective action.
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PMID:Cardioprotective actions of a new calcium channel blocker in acute myocardial ischemia. 370 65

This study examined the hypothesis that ethanol-induced alterations in cardiac function and regional blood flow impair recovery from shock after resuscitation. Blood ethanol levels 45 minutes after ethanol (3 gm/kg) was administered intrajejunally were 276 +/- 30 mg/100 ml (N = 14 dogs). Twelve dogs received saline solution and served as control animals. Elevated blood ethanol levels increased the rate of left ventricular pressure rise (+763 +/- 80 mm Hg X sec) and coronary blood flow (+0.77 +/- 0.18 ml X min X gm), decreased respiration, and caused a significant metabolic acidosis (arterial pH, 7.25 +/- 0.02; arterial lactate, 1.5 +/- 0.07 mmol/L). Two hours of hemorrhagic shock impaired cardiovascular function and regional blood flow to a similar extent in all dogs. Volume replacement (shed blood and lactated Ringer's solution, 50 ml/kg) transiently improved cardiac performance in the ethanol group. Two hours after volume replacement, a lower cardiac output, stroke volume, stroke work, myocardial oxygen efficiency, and persistent acidosis occurred in the intoxicated dogs (p less than 0.05) despite adequate coronary perfusion. Myocardial sensitivity to acidosis after shock may account for the reduced cardiac function in the ethanol group. However, it is possible that shock aggravated ethanol-induced pancreatic ischemia and contributed to impaired cardiocirculatory function in postinfusion shock.
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PMID:Ethanol impairs cardiocirculatory function in treated canine hemorrhagic shock. 373 72

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

Acute exposure of the heart to ethanol does not appear to alter the rate of young guinea pig cardiac protein synthesis when assayed in vitro. In contrast, the primary metabolite of ethanol, acetaldehyde, markedly diminishes synthesis despite its chronotropic and inotropic effects. On the other hand, after 11-13 weeks of ethanol-drinking during growth and maturation, the synthetic capacity of the working right ventricle was decreased when measured in vitro with normal perfusate. Assay of synthesis of the contractile proteins myosin heavy and light chains, actin and tropomyosin suggests a change in synthesis or pool size of actin reflected in an alteration of relative synthesis of this protein compared to that of heavy chains. The relative synthesis of the other proteins remained at control levels. When hearts from ethanol-drinking and matched control animals were perfused under conditions of severe ischemia, there was a profound fall in protein synthesis in all hearts, and ethanol did not enhance the inhibition of synthesis. However, the hearts from ethanol-drinking animals showed a more marked and significant impairment of maintaining ejection pressure with a marked increase in coronary resistance as the perfusion progressed. It is postulated that some impairment of protein metabolism may occur during prolonged ethanol exposure, which may influence the cardiac response of another induced stress, e.g., ischemia.
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PMID:Ethanol and cardiac protein synthesis. 391 35

The basic mechanisms underlying cytoprotection of gastrointestinal mucosae against damage are not understood. One hypothesis is that the initial and primary system affected by a cytoprotective agent is the local circulation of the tissue that is being protected. According to this circulatory hypothesis, a cytoprotective prostaglandin would increase gastric mucosal blood flow, thereby ameliorating the effect of topical damaging agents, such as ethanol, aspirin or bile salts. Four questions need to be considered in order to evaluate the circulatory hypothesis: (i) What degree of ischemia is necessary to break the gastric mucosal barrier? (ii) Is peptic ulcer disease due to local ischemia of the mucosa? (iii) Do mucosal damaging agents invariably reduce gastric blood flow? (iv) Do cytoprotective agents invariably increase gastric blood flow? A survey of available literature concerning blood flow and damage to the gastric mucosa suggests that: (i) severe degrees of gastric ischemia are necessary to impair vital functions of the epithelial cells of the stomach; (ii) peptic ulcer disease is not a manifestation of isolated gastric ischemia; (iii) mucosal damaging agents do not invariably reduce gastric blood flow; and (iv) cytoprotective drugs do not invariably increase gastric mucosal blood flow. The weight of available evidence does not support the circulatory hypothesis about the mechanism of cytoprotection.
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PMID:Gastric blood flow and the gastric mucosal barrier. 405 27

Unilateral cerebral microembolism was performed in the rat by injecting calibrated, 50 micrometers in diameter, carbonized microspheres into the internal carotid artery. The events that follow brain ischemia due to cerebral embolization were studied by the analysis of the blood-brain barrier (BBB) function, the degree of regional cerebral blood flow (CBF) and the development of brain edema. Two hours after embolization there was no change in the brain water content. The local CBF (14C-ethanol technique) was only reduced in the ipsilateral hemisphere. Twenty-four hours after embolization the brain water content was increased significantly in the ipsilateral, but not in the contralateral hemisphere. Local CBF further decreased in the ipsilateral hemisphere and a reduction in flow was also observed in the contralateral hemisphere. Embolization led to an increase in the BBB permeability, analysed as regional penetrability of 3H-dextran and of Evans blue-albumin complexes, which was restricted to the side of the injection of the microspheres.
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PMID:Cerebral microembolization in the rat: changes in blood-brain barrier permeability and cerebral blood flow as related to the degree of ischemia. 617 52

To test if chronic alcoholism potentiates mortality and accentuates cerebral infarcts associated with ischemia, 32 male and 33 female Mongolian gerbils were chronically fed ethanol in their diet for 6 weeks. Cerebral ischemia was then induced by ligation and sectioning of the right common carotid artery. Postoperatively, there was a mean difference in survival in the control versus the alcoholic gerbils. Whereas 76% of controls survived the operation, only 55% of alcoholic gerbils survived. Also, the alcoholic gerbils died earlier, usually in the initial 3 postoperation days. The incidence of cerebral infarcts was identical (52%) in both control and alcohol-treated gerbils. There was, however, a difference in the extent (size) of the infarcts and tolerance to them. The alcoholic gerbils tended to develop either large infarcts which were usually lethal, or smaller infarcts but with decreased tolerance. The cerebral infarcts in the controls tended to be smaller with better survival. These findings suggest that chronic alcohol consumption contributes significantly to the risk of mortality associated with ischemic brain infarction reported in human alcoholics, and indicate that the alcoholic gerbil is a good experimental model to study the pathophysiology of this phenomenon.
Alcohol Clin Exp Res 1983
PMID:The effects of chronic alcoholism on development of ischemic cerebral infarcts following unilateral carotid artery ligation in gerbils. 636 58

The limitation of conventional histological methods to demonstrate ischemic change of neurons in early phase has been a major drawback in histopathological and pathophysiological studies of cerebral ischemia. Cellular metabolism is disturbed immediately after cessation of the regional circulation and rapid alterations in macromolecular and ultrastructural integrity in neurons may take place before any evidence of histopathological changes could be detectable. To demonstrate ischemic change of neurons more sensitively on a histological level, we applied immunohistochemical method using antiserum to tubulin, a protein of microtubules. As this organelle has been implicated in several important cellular functions such as control of cell shape, intracytoplasmic transport of materials or synaptic transduction, immunohistochemical alterations in microtubules may indicate structural as well as functional damage of neurons. In order to study the ischemic change in neurons, the posterior communicating artery of a gerbil brain was occluded by the method previously reported by us, and the hippocampus, which is one of the most vulnerable structures of the brain to ischemia, was observed. Five or 30 minutes after occlusion, animals were sacrificed by decapitation. Brains were removed, cut coronary vessels and fixed in ethanol-acetic acid (95:5). Tubulin used for this study was extracted from normal gerbil brains and specific antiserum was raised in goats Peroxidase-antiperoxidase method was performed on paraffin sections. Immunohistochemical distribution of tubulin in a normal gerbil brain demonstrated by the present method was in good accordance with the reported electronmicroscopical distribution of microtubules.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Immunohistochemical study of ischemic neuronal damage with antiserum to tubulin, a microtubular protein]. 638 May 43

Metabolic, mechanical, thermal, and chemical injury induced ornithine decarboxylase (ODC) activity in rat brain. A two- to sixfold increase in ODC activity was measured at 5-9 h after different modes of injury to the brain. During the early phase of recovery from transient ischemia, when average protein synthesis was less than 50% of control, ODC activity was increased nearly fivefold. The rise in activity could be blocked by anisomycin, or reduced by intracerebral injections of actinomycin D. Drilling burr holes into the skull, injection of the vehicle for actinomycin D, hyperthermia, and freezing lesions all caused increased ODC activity. Neurotoxic chemicals (ammonia, methionine sulfoximine, acrylamide, carbon tetrachloride, and anisomycin) also increased brain ODC activity, whereas other chemicals (mannitol and valine) did not. Treatments known to stimulate the synthesis of heat shock proteins (carotid occlusion, hyperthermia, Cd2+, canavanine, and ethanol) induced ODC activity in the liver, whereas only hyperthermia and ethanol caused significant increases in spleen ODC activity. All increases in ODC activity were blocked by difluoromethylornithine, an irreversible inhibitor of ODC. The cellular response to noxious or stressful stimuli includes the synthesis of a small number of proteins of unknown functions; ODC may be one of these "heat shock" or "trauma" proteins.
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PMID:Induction of brain ornithine decarboxylase during recovery from metabolic, mechanical, thermal, or chemical injury. 642 97

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