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)

Possible enhancement of myocardial protection during ischemia and reperfusion by administration of adenosine was evaluated in a pig heart model. Adenosine (100 micrograms/kg/min) was infused into the aortic root during ischemia in group AI (n = 5) and into the right atrium during reperfusion in group AR (n = 6). Group C (n = 6) served as controls. During cardiopulmonary bypass the hearts were subjected to 30 min of normothermic ischemia and 15 min of reperfusion before weaning. In group AI the stroke work index 30 and 90 min after ischemia and the mean arterial pressure 30 min after ischemia were significantly higher than in group C. These parameters did not differ significantly between groups AR and C. All groups showed decrease in myocardial adenosine triphosphate (ATP) and adenylate charge potential (ACP) during ischemia and partial (ATP) or complete (ACP) restoration after ischemia. Adenosine infusion into the aortic root during ischemia (adenosine cardioplegia) thus resulted in improved postischemic heart function, although biochemical correlates in ATP and ACP were not apparent.
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PMID:Effects of adenosine infusion on the pig heart during normothermic ischemia and reperfusion. 178 Jul 37

The purpose of this study was to better characterize renal adenine nucleotide pool responses to different forms of shock, contrast the changes to those found in other intra-abdominal organs (the liver and small intestine), and assess whether these changes are closely mimicked by those produced by renal arterial occlusion, the usual method used to study ischemic acute renal failure. Rats were subjected to hemorrhagic shock, septic shock, or cardiopulmonary shock of varying severities and durations. The liver consistently had the greatest energy depletion, followed by the kidney, and then the small intestine. However, only the kidney developed clear morphological damage (S3 brush border sloughing). Kidney adenylate pools were better preserved during septic shock and cardiopulmonary shock than during hemorrhagic shock despite comparable blood pressures. Only profound hemorrhagic shock (35-40 mm Hg for 25 minutes) decreased total adenylate pools (ATP + ADP + AMP). However, the degree of renal catabolite (nucleosides plus purine base) accumulation did not correlate with the amount of renal total adenine nucleotide depletion, partially because circulating catabolites contributed to intrarenal catabolite pools. Purine base/uric acid ratios differed among shocked organs, consistent with different degrees of xanthine oxidase activity (small intestine greater than liver greater than kidney). Renal morphological damage decreased during the immediate (0-30 minutes) postshock period, and the extent of this improvement was not altered by xanthine oxidase inhibition (oxypurinol), suggesting that the immediate postshock period is not one of serious oxidative injury. Shock, in comparison with renal arterial occlusion, caused only modest ATP loss/catabolite accumulation, very low purine base/uric acid ratios, and no immediate-reperfusion (0-30 minutes) resynthesis of the total adenylate pool. Thus, ischemia-induced renal adenylate changes may differ considerably, depending on the nature of the ischemic event.
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PMID:Adenine nucleotide changes in kidney, liver, and small intestine during different forms of ischemic injury. 198 61

We have developed an isolated perfused tumor model to study the metabolism of solid tumors by nuclear magnetic resonance spectroscopy. Morris hepatomas (7777) were implanted in the inguinal region of Buffalo rats, such that they developed an isolated blood supply. These tumors were perfused with a RBC perfusate, removed from the animal, and studied by 31P nuclear magnetic resonance spectroscopy. ATP levels, as determined from the spectra, were stable for as long as the tumors were maintained in the magnet (7 h) only if the perfusate contained inosine, adenosine, and insulin. The adenosine and inosine were also required for recovery from ischemia. Under these conditions, ischemia did not result in a change in tumor pH. The gamma nucleoside triphosphate resonance was significantly larger than the beta nucleoside triphosphate resonance in spectra of some of the perfused tumors, suggesting that ADP above about 300 nmol/g wet weight was not complexed in these tumors. The adenylate levels determined from extracts, O2 consumption, histology, and 31P nuclear magnetic resonance spectra of extracts of perfused tumors and tumors in situ were all similar, indicating the perfused tumor is a reasonable model of the tumor in vivo.
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PMID:An ex vivo model for the study of tumor metabolism by nuclear magnetic resonance: characterization of the phosphorus-31 spectrum of the isolated perfused Morris hepatoma 7777. 198 24

Effects of the duration of preceding ischemia on the recovery of liver energy metabolism after reperfusion were investigated. Liver ATP level was depleted after the first 30 min of ischemia, and the decrease remained steady thereafter. Recovery of ATP depended on the preceding ischemic time, i.e., 81.5%, 66.4% and 39.5% recovery of the control level were observed after 60 min of reperfusion following 30 min, 60 min and 120 min of ischemia, respectively. Ischemia-induced mitochondrial dysfunction depended on the duration of ischemia. Mitochondrial function was recovered fully after 60 min of reperfusion following both 30 min and 60 min of ischemia. However, deterioration of mitochondrial function did not recover significantly after 60 min of reperfusion following 120 min of ischemia. Similar decreases in adenylate energy charge were observed irrespective of the duration of ischemia, and it recovered fully after 60 min of reperfusion following 30 min, 60 min and 120 min of ischemia. These results suggest that not the energy charge but ATP level itself is a reliable marker of liver energy status.
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PMID:Effects of preceding ischemic time on the recovery course of energy metabolism in rat liver. 209 93

The objective of the present study was to explore mechanisms responsible for activation of ion conductances in the initial phases of brain ischemia, particularly for the early release of K+ that precedes massive cell depolarization, and rapid downhill fluxes of K+, Na+, Cl-, and Ca2+. As it has been speculated that a K+ conductance can be activated either by an increase in the free cytosolic calcium concentration (Ca2+i) or by a fall in ATP concentration, the question arises whether the early increase in extracellular K+ concentration (K+e) is preceded by a rise in Ca2+i and/or a fall in ATP content. In the present experiments, ischemia was induced in rats by cardiac arrest, the time courses of the rise in K+e and cellular depolarization were determined by microelectrodes, and the tissue was frozen in situ through the exposed dura for measurements of levels of labile metabolites. including adenine nucleotides and cyclic AMP (cAMP), after ischemic periods of 15, 30, 60, and 120 s. Conversion of phosphorylase b to a was assessed, because it depends, among other things, on changes in Ca2+i. The K+e value rose within a few seconds following induction of ischemia, but massive depolarization (which is accompanied by influx of calcium) did not occur until after approximately 65 s. Activation of phosphorylase was observed already after 15 s and before glycogenolysis had begun. At that time, 3',5'-cAMP concentrations were unchanged, and total 5'-AMP concentrations were only moderately increased. The results demonstrate that a K+ conductance is activated at a time when the overall ATP concentration remains at 95% of control values.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphorylase alpha and labile metabolites during anoxia: correlation to membrane fluxes of K+ and Ca2+. 221 20

Sudden induction of ischemia by occlusion of a major branch of a coronary artery in mammalian heart sets into motion a series of events that culminates in the death of markedly ischemic myocytes. The changes begin within 8-10 seconds of occlusion and include 1) cessation of aerobic metabolism, 2) depletion of creatine phosphate, 3) onset of anaerobic glycolysis (AG), and 4) accumulation of products of anoxic metabolism in the ischemic tissue. Functional defects appear simultaneously, including depressed contractile activity and electrocardiographic changes. The demand of the ischemic myocytes for energy exceeds the supply of high-energy phosphate (approximately P) possible from AG; as a consequence, myocyte adenosine diphosphate increases, and adenylate kinase is activated to capture the approximately P bond of adenosine diphosphate. Adenosine monophosphate is a product of this reaction; it accumulates and is progressively degraded to nucleosides and bases that are lost from the myocyte. The pace of development of the short-term metabolic changes slows after 40-60 minutes of ischemia, at which time most of the severely ischemic myocytes are irreversibly injured. Early in the irreversible phase of injury tissue is characterized as follows by: 1) very low approximately P content (creatine phosphate less than 1-2% and adenosine triphosphate less than 10% of control), 2) a depressed adenine nucleotide pool that consists principally of adenosine monophosphate, 3) virtual cessation of AG, 4) low pH and low glycogen content, 5) high inosine and hypoxanthine contents, 6) a markedly increased osmolar load consisting chiefly of lactate, and 7) characteristic ultrastructural changes including cell swelling and evidence of generalized mitochondrial and marked sarcolemmal damage. Sarcolemmal disruption is the feature that we hypothesize causes irreversibility; however, its pathogenesis is unknown.
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PMID:Development of cell injury in sustained acute ischemia. 239 18

The effect of nimodipine, a 1,4 dihydro-piridine calcium entry blocker (200 micrograms/kg), was investigated in rats after definitive ischemia or 2 min of global ischemia (neck tourniquet method). The brains were freeze-clamped at the desired time intervals and subjected to high pressure liquid chromatography analyses for nucleotides and enzymatic lactate estimation. Although in the definitive ischemia (removal of the brain) no difference was observed in the treated versus the untreated animals, there was a statistically significant difference in both groups after global ischemia followed by reperfusion. Thirty minutes after reflow the brains of the treated animals contained 1,690 +/- 62 nmol ATP/g as compared to 765 +/- 259 nmol ATP/g in the untreated animals (p less than 0.05). The normal controls amounted to 1,932 +/- 77 nmol ATP/g. Also the adenylate energy charge returned to normal in the treated animals (treated animals and controls 0.69 and 0.72, respectively). From these preliminary data we conclude that nimodipine is able to restore mitochondrial function after ischemia and to maintain a high level of energy-rich phosphates. Thus, calcium entry blockers may be effective in preserving and protecting cerebral tissue from irreversible injury after ischemia.
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PMID:Effect of the calcium entry blocker nimodipine on the metabolism of nucleic acids in rat brain ischemia. 239 9

The effect of myocardial preservation with perfluorochemical as cardioplegic solution was studied with isolated canine hearts which was compared between intermittent coronary perfusion and continuous coronary perfusion. Intermittent perfusion group (group I) was infused every 30 minutes during 5 hours ischemia with oxygenated perfluorochemical at the amount of 10 ml/kg. Continuous perfusion group (group II) was infused continuously at the amount of 10 ml/kg/30 minutes. After 5 hours of ischemic time, total perfusion volume of both group were same 100 ml/kg. The comparison of myocardial preservation effect between group I and group II was examined with biochemical study, hemodynamic study and histological study. As a result, biochemical study such as GOT, CPK, and Lactate showed higher in group II than in group I, and value of catecholamine and adenylate levels in myocardial tissue showed higher in group I than in group II. In hemodynamic study, LVSW and LVEDP showed excellent value in group I, but never showed adequate function in group II at late working phase. On the other hand, LVmax dp/dt was recovered excellently in group I but in group II was not recovered at early working phase. In histological findings with electronic microscopy, there were some limited ischemic lesion in group II, which was suggested disturbance of micro circulation. It may be attributable to low perfusion pressure of continuous perfusion method. Finally, with regard to SOD (Super oxide dismutase) consumption, group I took higher than group II, and also oxygen consumption. It shows that in group I there is an effective activity of aerobic metabolism during ischemia, which explain not only the improved functional recovery but also generation of free radical, caused by super oxide etc. It is concluded from these results that intermittent perfusion has provided excellent preservation against myocardial ischemia, and also has possibility of danger to set up reperfusion injury.
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PMID:[Experimental study on myocardial preservation by perfluorochemical "comparison of myocardial preservation effect between continuous perfusion and intermittent perfusion"]. 239 94

The paracorporeal rat heart model was used to investigate the extent of myocardial protection by potassium cardioplegia supplemented with phosphoenolpyruvate (PEP) (14.4 mM) and ATP (0.067 mM) singly or in combination. Rat hearts were subjected to 30 minutes of ischemia at 37 degrees. They were subsequently reperfused for 40 minutes during which time the left ventricular isovolumic work was measured and blood samples were taken for creatine kinase isoenzyme MB (CK-MB) analysis. At the end of each experiment the hearts were freeze-clamped for later analyses of high energy phosphate compounds. Supplementation with PEP and ATP (Group I) and with only ATP (Group II) showed a significantly better left ventricular isovolumic work and a significantly higher adenylate charge potential (ACP). Supplementation with only PEP (Group III) resulted in significantly better left ventricular isovolumic work than the control group but significantly lower than groups I and II. There were no significant differences between the groups in regard to the CK-MB efflux. Supplementation with PEP and ATP in combination did not show any positive effect at 40 minutes of reperfusion over and above that which was achieved with ATP only.
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PMID:Enhanced protection of rat hearts during ischemia by phosphoenolpyruvate and ATP in cardioplegia. 242 24

The effect of creatine phosphate in potassium cardioplegia was studied in a pig heart model in vivo. Fifteen pigs divided into two groups were placed on cardiopulmonary bypass and subjected to 1 hour of cardioplegic arrest at normothermia. In group I (control), in which a potassium cardioplegic solution was used, only two out of eight animals could successfully be weaned from bypass. In group II, on the other hand, in which creatine phosphate (10 mmol/l) was added to the cardioplegic solution, six out of seven animals could be weaned from bypass and the heart performance assessed by volume loading. Group II also exhibited better maintenance of high-energy phosphates during ischemia, with significantly higher adenylate charge potential, than group I. In all animals weaned from bypass--two in group I and six in group II--the ventricular performance was decreased compared with that before induction of ischemia. The results indicate that creatine phosphate could be an effective constituent in potassium cardioplegia.
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PMID:Improved myocardial protection by creatine phosphate in cardioplegic solution. An in vivo study in the pig during normothermic ischemia. 244 31

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