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 possible protective effect of glucocorticoids on the ischemic myocardium was investigated in in situ dog hearts subjected to regional ischemia and in isolated rat hearts subjected to global ischemia. In the whole-animal preparation, the left anterior descending coronary artery (LAD) was occluded for 3 hours, or for 2 1/2 hours followed by 30 minutes of reperfusion. Dexamethasone phosphate was randomly administered (20 mg. per kilogram intravenously) after 15 minutes of ischemia. Its effects were studied on the following: (1) myocardial cell membrane integrity, using electron microscopic examination of tissue biopsies treated with colloidal lanthanum; (2) myocardial water content, measuring the wet/dry weight of myocardial tissue; (3) ischemic injury, by a count of fuchsinophilic cells at light microscopy. In isolated rat hearts, ischemia was produced by a 60 per cent reduction of coronary flow. Randomized hearts were perfused for 2 hours with dexamethasone, 15 mg. per milliliter in buffered salt solution. Study included determination of tissue water content and coronary vascular resistance. Lanthanum was confined to the extracellular spaces in normal dog myocardium, but it was found all intracellularly after 3 hours of ischemia or after reperfusion. This was associated with morphologic changes characteristic of irreversible cell injury. In the hearts treated with dexamethasone, lanthanum remained excluded from the cells, water content was less (p less than 0.005), and fuchsinophilia less severe (p less than 0.005). Likewise, water content was less (p less than 0.005) and the increase in coronary vascular resistance resulting from ischemia less severe (p less than 0.005) in the dexamethasone-treated isolated rat hearts. Thus dexamethasone administered in pharmacologic doses, early, appeared to stabilize the cell membrane, limit myocardial edema, and reduce the severity of injury, both during ischemia and upon reperfusion.
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PMID:Glucocorticoid protection of the myocardial cell membrane and the reduction of edema in experimental acute myocardial ischemia. 96 99

The time- and dose-dependent effects of recombinant human interleukin 1 alpha (IL-1 alpha) on the antitumor activity of mitomycin C (MMC) and porfiromycin (PORF) were studied in RIF-1 and Panc02 solid tumor model systems. IL-1 alpha produced dose-dependent sensitization of clonogenic RIF-1 tumor cells to MMC in vivo. IL-1 alpha chemosensitization was highly schedule dependent, and the most efficacious schedules produced dose-modifying factors of 3.6 and 5.1 for MMC and PORF, respectively. More than additive clonogenic cell kill after IL-1 alpha-chemotherapy combinations reflected increased cellular sensitivity to MMC and PORF. The combinations also produced marked decreases in the yield of viable tumor cells, suggesting that the bioreductive drugs may have also potentiated the microvascular injury and ischemia produced by IL-1 alpha. Dexamethasone inhibited and ketoconazole, an inhibitor of corticosterone biosynthesis, enhanced IL-1 alpha-mediated chemosensitization in these models. IL-1 alpha mediated chemosensitization to MMC, and PORF was also demonstrated by tumor growth inhibition in the RIF-1 model and increased survival of mice in the spontaneously metastasizing Panc02 system. Chemosensitization of bone marrow spleen colony-forming units was not seen. IL-1 alpha (1000 units/ml) had no effect on MMC and PORF cytotoxicity in RIF-1 and PORF cell lines in vitro. The results indicate that the tumor-specific IL-1 alpha-induced pathophysiologies can sensitize solid tumors to agents which are preferentially activated, retained, and cytotoxic to cells under hypoxic conditions. Our results suggest that strategies combining bioreductively activated hypoxic cell cytotoxins and biological agents might offer efficacious alternatives or adjuvants to conventional combination approaches.
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PMID:Potentiation of mitomycin C and porfiromycin antitumor activity in solid tumor models by recombinant human interleukin 1 alpha. 191 64

Steroids reduce permeability of the blood-brain barrier and inhibit active sodium transport by brain capillaries in vitro. Since the rate of edema formation during the early stages of ischemia is related to the rate of sodium transport from blood to brain, this study was designed to determine whether steroids reduce ischemic edema formation by inhibiting blood-brain barrier sodium transport. Dexamethasone was compared with progesterone since the latter is a more potent inhibitor of sodium transport in isolated capillaries. Sprague-Dawley rats were treated with vehicle (n = 22) or 2 mg/kg of either dexamethasone (n = 22) or progesterone (n = 17) 1 hour before occlusion of the middle cerebral artery. After 4 hours of ischemia, brain water content and blood-brain barrier permeability to [3H] alpha-aminoisobutyric acid and sodium-22 were determined. In controls, mean +/- SEM water content of tissue in the center of the ischemic zone was 82.4 +/- 0.2%. Brain edema was significantly reduced following pretreatment with either dexamethasone (80.6 +/- 0.1%, p less than 0.001) or progesterone (81.5 +/- 0.3%, p less than 0.05). There was also a significant reduction in blood-brain barrier permeability to alpha-aminoisobutyric acid in normal brain following either treatment (e.g., 2.21 +/- 0.19 and 1.37 +/- 0.10 microliters/g/min, p less than 0.001, for control and dexamethasone treatments, respectively), but no effect on the permeability to sodium (e.g., 1.19 +/- 0.05 and 1.12 +/- 0.11 microliters/g/min for control and dexamethasone treatments, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of steroids on edema and sodium uptake of the brain during focal ischemia in rats. 238 1

Reperfusion of ischemic myocardium is associated with phospholipid degradation and corresponding changes in membrane fluidity. Dexamethasone (1.25 mg/kg i.v.) was evaluated in the pig, with pretreatment of the animal 1 1/2 hours before ischemic insult. The isolated perfused in vivo pig heart model was subjected to 60 minutes of regional ischemia of the left anterior descending coronary artery. The ischemic heart was then subjected to 60 minutes of global hypothermic cardioplegic arrest followed by 60 minutes of reperfusion, including reperfusion of the ischemic left anterior descending coronary artery region. Phospholipase A2, arachidonic acid, total free fatty acids, myocardial microviscosity, coronary blood flow, myocardial oxygen consumption, creatine kinase release, and regional and global myocardial function were measured. Dexamethasone pretreatment resulted in dramatic inhibition of phospholipase A2 activity accompanied by a reduction in arachidonic acid and total free fatty acid levels. Myocardial microviscosity (the inverse of membrane fluidity) was significantly increased only in untreated animals. Coronary blood flow and myocardial oxygen consumption were maintained at preischemic levels only in the dexamethasone-treated animals and were significantly reduced in the control group. Creatine kinase release increased nearly six times in control animals only while remaining stable in the dexamethasone-treated group, and regional and global myocardial contractility and compliance were improved dramatically in the dexamethasone-treated animals. These results indicate that dexamethasone enhances myocardial function by preserving membrane structure through inhibition of phospholipase activation, thereby preventing phospholipid degradation and maintaining membrane integrity and fluidity.
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PMID:Steroid-induced myocardial preservation is associated with decreased cell membrane microviscosity. 250 6

The involvements of arachidonic acid metabolites in the development of ischemic brain edema and cerebral energy metabolism were investigated on the experimental ischemia and reperfusion model. The level of arachidonic acid in brain tissue increases especially on the ischemic insult, which is rapidly converted to prostaglandins and leukotrienes after the reperfusion. The drugs which modify the arachidonic acid metabolism were administrated to clarify the effect on ischemic brain edema and cerebral energy metabolism. Male stroke resistant spontaneously hypertensive rats (SHRSR) were subjected to incomplete ischemia for two hours by occlusion of both common carotid arteries with vascular clips, and reperfused for two hours. The drugs used are dexamethasone, indomethacin, trapidil and OKY-046. Indomethacin inhibits cyclooxygenase. Dexamethasone inhibits phospholipases by the production of lipocortin. OKY-046 inhibits thromboxane A2 synthetase. Trapidil inhibits thromboxane A2 synthetase and increases the level of 6-keto-PGF1 alpha. These drugs were administered 18 hours before, just after clipping on (1/2) and off (1/2). Brain water content, cerebral ATP and lactic acid levels were examined. In the saline treated group, the cerebral water content was increased after the reperfusion and reached its maximal level after two hours of the reperfusion. The development of brain edema was prevented by the administration of dexamethasone or trapidil, but not by indomethacin and OKY-046. Administration of trapidil or dexamethasone was found to prevent the decrease in ATP and the increase of lactic acid. In the indomethacin administrated group, only the increase of lactic acid was prevented. 6-keto-PGF1 alpha was high in the trapidil administrated group and low in the indomethacin administrated group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Involvement of arachidonic acid cascade in brain edema and cerebral energy metabolism after reperfusion]. 359 3

Simultaneous occlusion of both common carotid arteries in female Sprague-Dawley CFY rats produced characteristic symptoms of global cerebral ischemia, such as staggering, circling, convulsions, followed by coma and death. A close correlation existed among these symptoms and the elevation of water and Na+ content, appearing at the stage of staggering; Evans blue extravasation and diminution of K+ content, detected at circling; and the increase in Ca2+ content in the total brain tissue, manifesting itself at the phase of convulsions, indicating the development of cerebral edema due to ischemia. Dexamethasone given subcutaneously in a single 2.0 mg kg-1 dose 5 hours prior to the induction of global cerebral ischemia reduced considerably the morbidity and mortality, the alterations in water and electrolyte content, and albumin leakage in the brain tissue. Actinomycin D, in a dose of 0.5 mg kg-1 injected intravenously 1 hour before steroid treatment, abolished the beneficial effect. This finding suggests that de novo protein synthesis is involved in the cerebroprotective effect of dexamethasone.
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PMID:Actinomycin D suppresses the protective effect of dexamethasone in rats affected by global cerebral ischemia. 400 66

A 23-year-old male was admitted to hospital with severe dehydration and hypokalemic myopathy due to secondary aldosteronism. On admission serum sodium and chloride were markedly elevated to 198 mEq/l and 169 mEq/l, respectively, and serum potassium was down to 2.3 mEq/l. Serum electrolytes were normalized by transfusion therapy, but subsequently rhabdomyolysis grew worse due to metabolic abnormalities such as dehydration, hypothermia, oppressive ischemia and metabolic acidosis, at the same time transient polyuria and the elevation of serum myoglobin and enzymes originating in muscle tissue were observed. Serum CPK went up to 26,532 IU/l on the sixth day and other enzymes reached a peak following CPK. Dexamethasone was administered when the increase in enzyme levels caused the patient to fall into a stupor. He rapidly regained consciousness from the 15th day after admission, and he was able to stand up on the 29th day. Serum enzymes originating in muscle tissue decreased gradually to the normal range by the 30th day and no renal failure occurred.
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PMID:A case of severe dehydration with marked rhabdomyolysis. 402 Dec 12

Dexamethasone (6 mg/kg) given intravenously to anesthetized cats exerted no significant hemodynamic effect on control open-chest cats or in cats subjected to acute myocardial ischemia by coronary artery ligature. However, dexamethasone normalized elevated S-T segments toward preischemic values, and prevented much of the increase in plasma CPK activity following coronary artery ligation. Moreover, dexamethasone prevented loss of CK activity within ischemic myocardial tissue five hours after the onset of ischemia. Dexamethasone also reduced the extent of ischemic damage as assessed by a nitro-blue tetrazolium staining technique, providing anatomic verification of the reduced ischemic damage. Moreover, dexamethasone prvented the swelling and vacuolization of myocardial lysosomes in the ischemic region, indicating a stabilization of lysosomal membranes within the heart. These data indicate that lysosomal disruption is an important consequence of myocardial ischemia and that early treatment with dexamethasone prevents the loss of myocardial lysosomal and cellular enzymes as reflected in normalization of the ECG and plasma CK activity of ischemic cats. In this way, dexamethasone may act to retard the spread of the developing infarct within the ischemic myocardium.
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PMID:Mechanism of the beneficial effect of dexamethasone on myocardial cell integrity in acure myocardial ischemia. 739 11

Reducing reperfusion injury is effective in reducing flap loss after prolonged ischemia. Anti-inflammatory therapy reduces reperfusion injury in canine cardiac muscle and ex vivo rat cremaster muscle; however, to date, there are no studies involving the use of anti-inflammatory agents in ischemic skin flaps. This study was designed to assess the effects of dexamethasone and indomethacin on the viability of rat island groin flaps subjected to 10 hours of ischemia. The ischemic control and the treatment group flaps were subjected to 10 hours of ischemia by clamping the inferior epigastric vascular pedicle. The treatment groups received either intravenous dexamethasone or intravenous indomethacin after the flap vascular pedicles were clamped. Our results showed significant improvement (p < 0.05, Fisher's exact test) in ischemic flap survival using dexamethasone. The specific mode of action of dexamethasone was not investigated; however, its anti-inflammatory effects were most likely responsible for the improvement of flap survival by suppressing the circulating neutrophil and decreasing reperfusion injury. Dexamethasone is easily available for clinical use, and its use should be considered in cases of prolonged ischemia in skin flaps.
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PMID:Reducing ischemia-reperfusion injury in rat island groin flaps using dexamethasone. 750 23

Pretreatment with the synthetic glucocorticoid dexamethasone prevents hypoxic-ischemic brain damage in 7-day-old neonatal rats. We presently characterize the response further by examining the effect of varying the age, the glucocorticoid, and the time of injection and by examining whether fasting can influence the response. Rats (n = 193) were randomized to one of 16 different treatment groups and subjected to hypoxia-ischemia (right carotid artery occlusion +8% O2 which was 3 h in duration for 7-day, 1 h for 2-week, and 30 min for 1-month-old animals). The brains were subsequently perfusion fixed and the area of infarction was measured from hematoxylin- and eosin-stained sections. Time dependence studies demonstrated that treatment with 0.1 mg/kg intraperitoneal dexamethasone 4 h prior to hypoxia reduced infarct size compared to vehicle-treated animals whereas pretreatment at either 48 h or 4 days was ineffective. Dexamethasone pretreatment (4 h) also provided neuroprotection against 4 h of hypoxia-ischemia. Fasted animals which received dexamethasone had reduced blood glucose levels yet markedly less damage than controls. Another glucocorticoid, methylprednisolone (0.7 mg/kg), also reduced infarction. In 2-week-old animals the area of infarction was reduced by pretreatment with dexamethasone, whereas in 1-month-old animals dexamethasone was ineffective. The results suggest that a glucocorticoid-mediated response intervenes in events leading to neuronal death in young animals but not older animals once myelination and synaptogenesis are complete.
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PMID:Prevention of hypoxic-ischemic damage with dexamethasone is dependent on age and not influenced by fasting. 772 Aug 20


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