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)

We have demonstrated that tumor necrosis factor-alpha (TNF-alpha) pretreatment protected the rat heart from ischemia-reperfusion injury. This effect was monitored by assaying for lactate dehydrogenase (LDH), an enzyme whose release correlates with loss of cell membrane integrity. Intact hearts removed from rats pretreated with TNF-released significantly lower amounts of LDH compared to control hearts after 20 min. of total global ischemia followed by reperfusion. Hearts from TNF-alpha-pretreated animals contained higher levels of manganous superoxide dismutase (MnSOD) mRNA than hearts from untreated rats. Because oxygen free radicals have been implicated as a major cause of reperfusion damage and the function of MnSOD is to detoxify superoxide anions in the mitochondria, a possible protective mechanism for TNF-alpha may be to induce expression of MnSOD in the heart and thus confer resistance to oxygen free radicals generated during reperfusion.
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PMID:Tumor necrosis factor-alpha pretreatment is protective in a rat model of myocardial ischemia-reperfusion injury. 137 34

Recent studies have shown the ability of salicylic acid (SA) to trap hydroxyl radicals (OH.) generated during reperfusion in ischemic myocardium. Since OH. is implicated in the pathogenesis of reperfusion injury, we examined the effect of SA on reperfusion-induced arrhythmias and postischemic ventricular dysfunction. Isolated rat hearts perfused by the Langendorff technique were preperfused with Krebs-Henseleit buffer containing SA for 10 min. Hearts were then made ischemic for 30 min, followed by 30 min of reperfusion. In a separate group, SA was administered only at the onset of reperfusion. The left ventricular contractile functions, left ventricular developed pressure (LVDP) and its first derivative (LV dP/dt), coronary flow (CF), and creatine kinase (CK) release were determined before and after ischemia. Epicardial electrocardiogram (ECG) was also recorded to analyze the incidence of ventricular tachycardia (VT) and ventricular fibrillation (VF). SA improved LVDP, LV dp/dt, and CF recovery and reduced CK release compared to the control group. The incidence of VT and VF during reperfusion was also significantly reduced by SA. Analysis of tissue thiobarbituric acid-reactive products indicates that SA decreased oxidative stress during reperfusion. In conclusion, these results suggest that SA reduces myocardial reperfusion injury and attenuates ventricular arrhythmias by trapping OH. radicals upon reperfusion in isolated rat hearts.
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PMID:Salicylate reduces ventricular dysfunction and arrhythmias during reperfusion in isolated rat hearts. 137 90

Thirty-three canine hearts were isolated after initial cardioplegia and preserved for 6 hours in 4 degrees C saline solution with intermittent infusion of cardioprotective solution every hour. Reperfusion was observed for 2 hours under normothermic cross-circulation. Hearts were divided into five groups depending on the agent(s) added to the K(+)-Mg2+ cardioplegic solution (K(+)-Mg(2+)-CP) infused. Control hearts (n = 6) received K(+)-Mg(2+)-CP solution alone; group I (n = 7) received lidocaine, 200 mg/L, added to the K(+)-Mg(2+)-CP solution; group II (n = 7) received betamethasone (250 mg/L) added to the formula for group I; group III (n = 6) received diltiazem (200 micrograms/L) added to the formula for group II; group IV (n = 7) received aprotinin (150 KIU/L) added to the formula of group III. Coronary sinus MB fraction of creatine kinase level was significantly decreased at 60 and 120 minutes of reperfusion in group II, as was mitochondrial aspartate aminotransferase level at 2 hours of reperfusion. Lysosomal enzyme release decreased in group IV. Myocardial adenosine triphosphate levels and total adenine nucleotides showed no significant difference among the groups at the end of reperfusion; however, myocardial adenosine diphosphate and adenosine monophosphate levels during reperfusion increased significantly in group I, and myocardial adenosine diphosphate and adenosine monophosphate levels at the end of reperfusion in groups I and IV were significantly higher than those of the control. Calcium overload, which was lowest in group II, was not completely prevented during reperfusion in any group. Left ventricular end-systolic pressure volume relationship in group II showed the "best" functional recovery. In addition, the ultrastructure of the left ventricular myocardium was well preserved in all groups. These results suggest that membrane stabilization with lidocaine and betamethasone affords beneficial effects on myocardial biochemical and functional viability. Diltiazem appears to be less effective in preventing calcium overload during ischemia-reperfusion, and protease inhibition with aprotinin (150 KIU/ml) seems to be highly effective in suppressing lysosomal enzyme activation-release and maintaining myocardial adenosine diphosphate and adenosine monophosphate levels.
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PMID:Heart preservation: analysis of cardioprotective infusate characteristics. Membrane stabilization, calcium antagonism, and protease inhibition on myocardial viability: a biochemical, ultrastructural, functional study. 137 28

The oxidative metabolic rate may be disproportionately high compared with contractile function in postischemic reperfused myocardium. To study the potential involvement of intracellular calcium transport in high energy expenditure after reperfusion, we determined in isolated rat hearts the effect of ruthenium red, an inhibitor of mitochondrial calcium transport, on recovery of contractile function and oxidative metabolic rate. Hearts subjected to 60 minutes of no-flow ischemia exhibited, at 15 minutes after the onset of reperfusion, poor recovery of left ventricular pressure development to only 7% of the corresponding value measured in control hearts (p less than 0.01). However, myocardial oxygen consumption was recovered to 84% of control (p = NS). The ratio of isovolumic contractile performance (expressed as the product of heart rate and left ventricular pressure development) to myocardial oxygen consumption was severely depressed to 6% of control (p less than 0.01). Supplementation of the perfusate with 6 microM ruthenium red during the initial 40 minutes of reperfusion resulted in a reduction of myocardial oxygen consumption to 65% of the value measured after 15 minutes of reperfusion in hearts reperfused without ruthenium red (p less than 0.01), despite a threefold increase of left ventricular pressure development (p less than 0.05). Oxidation of both palmitate and glucose was reduced to a comparable extent by ruthenium red. The ratio of contractile performance to myocardial oxygen consumption increased progressively during infusion of ruthenium red and did not differ further from control hearts after 30 minutes of reperfusion. Cumulative myocardial release of creatine kinase was reduced by 47% (p less than 0.05) in hearts reperfused with ruthenium red-containing medium. The results provide circumstantial evidence for the hypothesis suggesting that enhanced energy expenditure by intracellular calcium transport may be involved in the mechanisms underlying the dissociation between left ventricular performance and myocardial oxidative metabolic rate early after postischemic reperfusion.
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PMID:Dissociation between contractile function and oxidative metabolism in postischemic myocardium. Attenuation by ruthenium red administered during reperfusion. 137 92

Hemodynamic parameters of six groups of guinea-pig hearts were studied by the working heart technic of Neely. Three groups were respectively perfused with: Krebs-Henseleit, purified native hemoglobin 1gm/dl and hemoglobin conjugated to dextran benzene tetracarboxylate 1 gm/dl. Three other groups were perfused under the same conditions except that after 30 mn of perfusion, 10 mn of total ischemia were produced followed by 30 mn of reperfusion with the previous solutions. All solutions contained 10 g/l of BSA. Hearts perfused with Hb solutions without ischemia or after ischemia show better parameters than with Krebs-Henseleit. These observations suggest that contrary to previously published results, purified Hb and more, dextran-BTC-Hb appear to be perfusable and are less deleterious for heart than saline without hemoglobin.
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PMID:A potential blood substitute from carboxylic dextran and oxyhemoglobin. III. Evaluations by perfusion of normal and ischemic guinea-pig heart. 138 44

The molecular basis of myocardial adaptation to ischemia and reperfusion is poorly understood. It is thought that nuclear proto-oncogenes act as third messengers, converting cytoplasmic signal transduction into long-term changes of gene expression. We studied the expression of six nuclear proto-oncogenes (Egr-1, c-fos, fosB, c-jun, junB, and c-myc) in myocardium subjected to ischemia and reperfusion in anesthetized pigs. Stunning was achieved by two 10-minute left anterior descending coronary artery occlusions separated by 30 minutes of reperfusion. Hearts were excised after the first occlusion, after the first reperfusion, and at 30, 120, 150, and 210 minutes of reperfusion after the second occlusion. Total RNA was prepared from stunned as well as normally perfused myocardial tissue and subjected to Northern blotting. The response of the six nuclear proto-oncogenes varied.fosB gene expression was never detected. The c-myc gene was expressed, but its level was unchanged by ischemia. c-jun expression was slightly increased by ischemia (3.1 +/- 0.6-fold). The c-fos, Egr-1, and junB genes were highly induced, being fivefold to sevenfold higher in experimental than in control tissue. In three animals pretreated with the beta 1-antagonist metoprolol and then subjected to the above experimental protocol, the induction of proto-oncogenes was similar to that in nonblocked controls. Our results show that the myocardial adaptive response to ischemic stress includes the induction of at least four transcription factors that may be further operative in repair processes and angiogenesis.
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PMID:Proto-oncogene expression in porcine myocardium subjected to ischemia and reperfusion. 138 5

The ability of an oxygenated perfluorochemical (Fluosol) to limit myocardial reperfusion injury following global hypothermic ischemic insult was investigated. Neonatal piglet hearts were arrested with cold crystalloid cardioplegia and stored for 12 hours in 2 degrees C saline. Reperfusion was carried out using an isolated, blood-perfused, working heart preparation. Hearts were initially reperfused (10 minutes) with either whole blood (WB, n = 6), unmodified perfluorochemical (PFC, n = 8), or aspartate/glutamate-enriched perfluorochemical cardioplegia (PFC+, n = 6), prior to institution of whole blood perfusion, functional evaluation and left ventricular biopsy. A control group (C, n = 7) was evaluated without an intervening period of ischemia. At a left ventricular diastolic pressure of 9 mm Hg WB hearts developed a left-ventricular stroke work index (SWI) of 3.8 +/- 2.3 x 10(3) erg/g (mean +/- standard error of the mean). Under similar conditions, PFC-reperfused hearts achieved a SWI of 14.6 +/- 1.3 x 10(3), significantly greater than that of WB (p less than 0.001). SWI for PFC+ hearts was 19.8 +/- 1.6 x 10(3), significantly increased over that of PFC (p less than 0.01), and not different from values obtained for C (19.2 +/- 0.8 x 10(3)). In addition, PFC-reperfused hearts demonstrated superior maintenance (p less than 0.05) of ATP (2.08 +/- 0.16 umole/g), compared to WB (1.50 +/- 0.19), while preservation of ATP in PFC+ hearts (2.99 +/- 0.12), was significantly increased over that of PFC (p less than 0.001), and not significantly different from that for C (2.68 +/- 0.17).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Perfluorochemical reperfusion limits myocardial reperfusion injury after prolonged hypothermic global ischemia. 139 43

During induced myocardial ischemia for cardiac surgery, myocardial stunning occurs and aerobic metabolism of glucose, fatty acids, and lactate is inhibited as anaerobic pathways predominate. Even following reperfusion, stunned myocardium uses oxygen and substrate inefficiently leading to poor functional recovery as less mechanical work is developed per oxygen utilized. Amino acids potentially can act as cardiac metabolic substrates during and after ischemia, utilizing the transamination of amino acids by the malate-aspartate shuttle to form high energy phosphates via the tricarboxylic acid cycle. We investigated if "preloading" hearts with a physiologic spectrum of amino acids could increase postischemic myocardial recovery. Isolated perfused rabbit hearts were subjected to 120 min of 34 degrees C cardioplegic ischemia. Hearts received cardioplegia alone as controls or were "preloaded" with a 0.05% amino acid perfusion for 30 min prior to cardioplegic ischemia. Following reperfusion, analysis of functional recovery revealed that contractility and cardiac efficiency were improved with amino acids substrate preloading. The mechanism of this may be due to uptake of amino acids prior to ischemia, which are later utilized for internal reparative work during ischemia and external contractile work after ischemia.
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PMID:Amino acid substrate preloading and postischemic myocardial recovery. 140 15

The association of verapamil with halothane causes ischaemic-like myocardial dysfunction. Using an isolated rat heart model perfused with a radiolabelled fatty acid (123I-labelled iodohexadecenoic acid) as a sensitive marker of ischaemia this study investigated whether or not this dysfunction is of ischaemic origin. Hearts were perfused with a control solution or with solutions containing either 1% of halothane or 150 ng ml-1 of verapamil or the association of 0.75% halothane + 120 ng ml-1 verapamil. The ischaemic group was perfused at a reduced perfusion rate (-50%). Intracellular fate of IHA was assessed, and its esterification ratio computed. Ischaemia and the drugs induced a similar depression of haemodynamics. The esterification ratio in the ischaemic group was significantly higher (0.723 +/- 0.04) than in controls (0.0526 +/- 0.03) and than in the treated groups: halothane (0.533 +/- 0.06), verapamil (0.411 +/- 0.027) or the association halothane+verapamil (0.408 +/- 0.05), suggesting a non-ischaemic origin for the dysfunction caused by halothane-verapamil.
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PMID:Comparative effects of halothane associated with verapamil and ischaemia on myocardial metabolism in isolated perfused rat hearts. 142 13

Although a lot of investigations indicated that free radical scavengers, such as superoxide dismutase (SOD) and catalase, reduced ischemia-reperfusion injury, the precise mechanism including the sites of action are still controversial. The purposes of this study were to investigate the sites of action of SOD and catalase by assessing postischemic cardiac and endothelial cell function. Wistar rats (450-550g) were used as support animals to establish blood perfused circuit. A peristaltic pump controlled the femoral arterial supply at 3.0 ml/min and the venous return to the jugular vein with gravity. Hearts (n = 8/group) from the Wistar rats were perfused (Langendorff model) and paced at 350 beats/min. After assessing baseline functions, hearts were rendered ischemia at 37.5 degrees C for 20 min. Then hearts were reperfused for 35 min, at the end of which left ventricular functions were re-assessed. One group of hearts received a continuous infusion of SOD and catalase during the period of 10 min before ischemia to 20 min after the onset of reperfusion. Left ventricular functions were measured with a left intraventricular balloon. The end-diastolic pressure was fixed at 10 mmHg, which was equivalent to the normal left ventricular end-diastolic pressure. The mean postischemic recovery of the left ventricular end-systolic pressure was increased from 55 +/- 3% in the control group to 67 +/- 2% in the SOD and catalase group (P less than 0.05). Similarly, the postischemic compliance was increased from 1.28 +/- 0.12 (microliters/mmHg) in the control group to 1.61 +/- 0.11 (microliters/mmHg) in the SOD and catalase group (P less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The effect of oxygen free radical scavenger on endothelial cell at ischemic and reperfusion injury]. 142 95


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