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)

A morphologic study of the small (50 to 200 micron) intramyocardial coronary arteries was performed. The cases chosen for study were selected from a relatively young group of patients without clinical evidence of alcoholic cardiomyopathy or pathologic evidence of large coronary artery disease, in order to evaluate alterations in the small vessels which could possibly be attributed to the chronic alcoholic state. Five basic vascular abnormalities were described. The most common alteration found in all nine cases was vascular wall edema (48 per cent), followed by perivascular fibrosis (42 per cent), vascular sclerosis (36 per cent), subendothelial humps (13 per cent), and vascular wall inflammation (11 per cent). The significance and pathogenesis of these changes were discussed. Primary endothelial cell damage was proposed as a common pathogenic mechanism for all five types of vascular abnormality. It was suggested that following endothelial damage, fluid and macromolecules penetrate into the vessel wall or into the perivascular space where, by incompletely understood processes, they induce vascular wall myocytes to produce collagen, elastin, and basement membrane-like substances. Evidence supporting this mechanism was derived from the common observation of vascular wall edema, from the occasional presence of erythrocytes and leukocytes within the vessel wall, and from experimental data in the literature. Several possible etiologic agents were implicated in the pathogenesis of endothelial and vessel wall injury. These included alcohol itself, acetaldehyde, biogenic amines, and magnesium deficiency. It is probable, however, that there are multiple etiologic factors which affect the small cardiac vessels of the chronic alcoholic. Finally, the proposal was advanced that the nonspecific pathology of the myocardium in chronic alcoholism may be a result of ischemia secondary to disease of the small intramyocardial coronary ateries.
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PMID:Intramyocardial small-vessel disease in chronic alcoholism. 98 32

A silver method is proposed for the selective, well-contrasted and reproducible demonstration of "dark" neurons in frozen, vibratome and paraffin sections cut at a thickness of 5 to 200 microns from aldehyde-fixed brains. The Golgi-like staining of the dendrites enables assorting of "dark" neurons according to characteristic neuron classifications. The staining procedure includes an esterification with 1-propanol, a treatment with diluted acetic acid and development. The esterification strongly increases the argyrophilia of both "dark" neurons and mitochondria. Unwanted co-staining of mitochondria is suppressed by the acetic acid treatment, while a special developer is used to render the staining controllable. The applicability of the method to experimental neuropathology is demonstrated by Golgi-like staining of "dark" neurons in rat brains exposed, before transcardial perfusion-fixation and delayed autopsy, to various pathological conditions including ischemia, hypoglycemia, trauma, status epilepticus, deafferentation and poisoning with kainic acid, colchicine and sodium azide, respectively.
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PMID:Golgi-like demonstration of "dark" neurons with an argyrophil III method for experimental neuropathology. 169 82

Acetaldehyde (AA), the first product of ethanol metabolism, has been suggested as an important mediator in alcoholic pancreatitis, but experimental evidence has not been convincing. Prior work using the isolated perfused canine pancreas preparation has suggested that toxic oxygen metabolites generated by xanthine oxidase (XO) may mediate the early injury in pancreatitis. Xanthine oxidase is capable of oxidizing AA, and during this oxidation free radicals are released. The hypothesis that acute alcoholic pancreatitis may be initiated by AA in the presence of active XO (converted from xanthine dehydrogenase [XD]) was tested in the authors' experimental preparation by converting XD to XO by a period of ischemia, and infusing AA. Control preparations remained normal throughout the 4-hour perfusion (weight gain, 7 +/- 4 g; amylase activity, 1162 +/- 202 U/dL). One hour of ischemia or infusion of AA at 25 mg/hr or at 50 mg/hr without ischemia did not induce changes in the preparation. Acetaldehyde at 250 mg/hr induced minimal edema and weight gain (16 +/- 4 g; p less than 0.05), but not significant hyperamylasemia. Changes also were not observed when 1-hour ischemia was followed by a bolus of ethanol (1.5 g) or sodium acetate (3.0 g), or by infusion of 25 mg/hr of AA. One hour of ischemia followed by infusion of AA at 50 mg/hr or at 250 mg/hr induced edema, hemorrhage, weight gain (22 +/- 7 g [p less than 0.05] and 26 +/- 17 g [p less than 0.05]) and hyperamylasemia (2249 +/- 1034 U/dL [p less than 0.05] and 2602 +/- 1412 U/dL [p less than 0.05]). Moreover infusion of AA at 250 mg/hr after 2 hours of ischemia potentiated the weight gain (62 +/- 20 g versus 30 +/- 14 g [p less than 0.05]), but not the hyperamylasemia (3404 +/- 589 U/dL versus 2862 +/- 1525 U/dL) as compared with 2 hours of ischemia alone. Pancreatitis induced by 1 hour of ischemia followed by AA at 50 mg/hr could be inhibited by pretreatment with the free radical scavengers superoxide dismutase and catalase and ameliorated with the XO inhibitor allopurinol. The authors conclude that AA, in the presence of active XO, can initiate acute pancreatitis in the isolated canine pancreas preparation and may be important in the initiation of acute alcoholic pancreatitis in man. Toxic oxygen metabolites appear to play an important intermediary role.
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PMID:The role of acetaldehyde in the pathogenesis of acute alcoholic pancreatitis. 172 Jun 11

The precise effects ethanol (ETOH), acetaldehyde (ACT) and acetate (AC) exert on microscopic resistance and capacitance vessels in skeletal muscle is unknown. In-situ studies on the skeletal (cremaster) microvasculature of the rat, using high-resolution television microscopy, were undertaken. Acute administration (topical, intra-arterial or iv) of ethanol (0.001-10%) to young rats produced a concentration-related vasoconstriction of arterioles (18-45 microns) and muscular venules (25-50 microns), ranging from a 7 to 80% reduction in microvessel lumen sizes. Acute administration of either ACT or AC, however, produced concentration-related vasodilatation of these same microvessels. No known amine or opiate pharmacologic antagonist or cyclooxygenase inhibitor could attenuate or prevent ETOH, ACT and AC from eliciting their unique microvascular responses. These new, direct in-situ microcirculatory findings clearly demonstrate: 1) ETOH exerts constrictor, and not dilator, effects on skeletal muscle microscopic resistance and capacitance vessels; 2) both ACT and AC exert dilator, and not constrictor, effects on these muscle microvessels; and 3) the effects of alcohol can not be due to metabolism to ACT or AC. A progressive increase in ischemia of the skeletal muscle microscopic resistance and capacitance vessels, over a period of time (weeks to years), could result in the well-known syndrome of alcoholic myopathy.
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PMID:Comparative effects of ethanol, acetaldehyde and acetate on arterioles and venules in skeletal muscle: direct in situ studies on the microcirculation and their possible relationship to alcoholic myopathy. 224 21

A growing body of experimental data indicates that reactive oxygen metabolites such as superoxide, hydrogen peroxide, and hydroxyl radical may mediate the mucosal injury produced by reperfusion of ischemic intestine. Xanthine oxidase has been proposed as the primary source of these reduced O2 species because pretreatment with xanthine oxidase inhibitors such as allopurinol or pterin aldehyde prevent postischemic mucosal injury. Another potential source of oxygen radicals is the inflammatory neutrophil. To ascertain whether neutrophils could play a role in the pathogenesis of ischemia-reperfusion injury in the small bowel we examined the effect of ischemia and reperfusion on neutrophil infiltration and tissue levels of reduced glutathione, superoxide dismutase, and catalase. Our studies demonstrate that reperfusion of ischemic intestines results in a dramatic increase (1,800%) in neutrophil infiltration and a concurrent loss of reduced glutathione and superoxide dismutase of 60 and 30%, respectively. Catalase activity was unaffected by ischemia-reperfusion. Pretreatment with allopurinol or administration of superoxide dismutase prevented the influx of neutrophils and retarded the drop in reduced glutathione levels. These results suggest a relationship among xanthine oxidase-generated oxy radicals, neutrophil extravasation, and mucosal damage. We propose that ischemia and reperfusion results in xanthine oxidase-generated, superoxide-dependent accumulation of inflammatory neutrophils in the mucosa where neutrophil-derived reactive oxygen metabolites mediate and/or exacerbate intestinal injury.
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PMID:Xanthine oxidase and neutrophil infiltration in intestinal ischemia. 302 Sep 94

Previous reports indicate that allopurinol, a xanthine oxidase inhibitor, largely prevents the injury produced by reperfusion of ischemic tissues. In order to further assess the role of xanthine oxidase in ischemia-reperfusion injury, we examined the influence of another inhibitor of the enzyme (pterin aldehyde) on the increased vascular permeability produced by intestinal ischemia. Vascular permeability estimates in autoperfused segments of cat ileum were derived from the relationship between lymph-to-plasma protein concentration ratio and lymph flow. One hour of intestinal ischemia increased vascular permeability to 0.43 +/- 0.02 from a control (nonischemic) value of 0.08 +/- 0.005. In ischemic ileal segments pretreated with purified pterin aldehyde, vascular permeability increased to only 0.15 +/- 0.02. Pretreatment with commercially prepared folic acid, which is contaminated with pterin aldehyde, also attenuated the ischemia-induced increase in vascular permeability (0.16 +/- 0.04). These findings support the hypothesis that xanthine oxidase is a major source of oxygen-free radicals produced during reperfusion of the ischemic small bowel.
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PMID:Xanthine oxidase inhibitors attenuate ischemia-induced vascular permeability changes in the cat intestine. 375 55

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 circulatory responses to ethyl alcohol are quantitatively related to the route and rate of administration as well as to the dose and the time of physiological measurements. A variety of acute regional blood flow responses have been described in the basal state in animals without prior exposure to ethanol. Gastric mucosal blood flow is substantially increased by ethanol. Pancreatic blood flow, on the other hand, has been found to undergo a dose-dependent reduction. Hepatic blood flow has been found to increase in baboons without evidence of ischemia. Renal arteries appear to be unresponsive up to 3 g/kg. Similarly, the cerebral vasculature does not seem to be affected by ethanol except at high dose levels where increased flow occurs. Animal studies, however, have suggested that ethanol may interfere with autoregulation. In terms of limb blood flow, oral administration has been found to enhance flow to the skin but to diminish skeletal muscle blood flow. Vasodilatation of the coronary vasculature has been consistently reported to be significantly greater in animals than in humans. The major metabolite of ethanol, acetaldehyde, has significant effects on circulation. At blood levels achieved after feeding ethanol, there was a 60% rise of coronary blood flow but myocardial oxygen consumption was reduced, presumably representing a shunting effect in myocardium.
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PMID:Regional circulatory responses to alcohol and its congeners. 708 87

This study was performed to determine the early and delayed metabolic effects of myocardial ischemia on the major membrane phospholipids and to reassess the potential role of lysophospholipids in the genesis of malignant dysrhythmias induced by ischemia. Samples taken from in situ hearts before ant at various intervals up to 40 minutes after abrupt ligation of LAD were extracted by the classical Folch technique with modifications to avoid artifactual lysophospholipid production and losses. Following thin layer chromatography of lipid extracts, phospholipid fractions were quantified by phosphorus estimation and lysophospholipids by a more sensitive method employing gas liquid chromatography. The total phospholipid content with the exception of lysophospholipids remained essentially constant throughout the early phases of acute ischemia, but fell by 6 and 14% after 8 and 24 ours, respectively. At 8 minutes, lysophospholipid levels n ischemic myocardium were significantly increased by 60% compared to pre-occlusion controls in the ischemic zone and by 25% in post-occlusion controls. They changed little thereafter. The molecular species of lysophospholipids remained unchanged throughout the period of ischemia studied. The mole fraction of other phospholipids as well as their fatty acyl and aldehyde profiles also were unchanged. Despite significant elevations in lysophospholipids levels, their absolute quantities were very small (0.6% of total phospholipid P) and 15-fold smaller than that reported in vitro to simulate electrophysiological manifestation of ischemia. However, such small amounts in vivo, if produced in the microenvironment of certain membrane-bound enzymes along with acidosis, hypoxia, and fatty acids, could be potentially deleterious to cell functions.
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PMID:Time course of changes in porcine myocardial phospholipid levels during ischemia. A reassessment of the lysolipid hypothesis. 724 69

4-Hydroxynonenal (HNE) has been proposed as an important marker of radical-induced lipid peroxidation (LPO) during postischemic reperfusion injury of the myocardium. Therefore, the liberation of HNE into the effluent of isolated perfused rat hearts was investigated. For the first time, the formation of the aldehyde is demonstrated in myocardium. During control perfusion, 1.28 +/- 0.33 pmol HNE.min-1.mg protein-1 were formed by the hearts of 18-mo-old Wistar-Kyoto (WKY) rats and 2.74 +/- 1.12 pmol.min-1.mg protein-1 by those of 18-mo-old spontaneously hypertensive (SHR) rats, respectively. In the WKY group, HNE release increased to 3.35 +/- 1.13 pmol.min-1.mg protein-1 2 min after the onset of reperfusion following 30 min of total and global ischemia compared with the preischemic control period (P < 0.05). In the SHR group, HNE liberation was higher during reperfusion (8.66 +/- 1.33 pmol.min-1.mg protein-1, maximum at 2 min reperfusion) compared with both the respective preischemic control and the respective reperfusion interval of the WKY group (P < 0.05 each). The SHR rats showed signs of congestive cardiac failure of a decompensated hypertrophy in comparison to the normotensive WKY rats. Moreover, the SHR rat hearts exhibited a lower release of adenine nucleotide degradation products (adenine, inosine, hypoxanthine plus uric acid: 48.1 +/- 10.2 nmol.30 min-1.mg protein-1; P < 0.05) and a diminished functional recovery (left ventricular developed pressure, 32 +/- 16 mmHg; P < 0.05) during 30 min of reperfusion compared with the WKY group (77.9 +/- 14.4 nmol.30 min-1.mg protein-1; 90 +/- 21 mmHg).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:4-Hydroxynonenal, a novel indicator of lipid peroxidation for reperfusion injury of the myocardium. 763 42


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