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 aim of this study was to determine the dual role of ATP as an energy substrate and as a major source of oxygen-derived free-radical-mediated reperfusion injury by using adenine nucleoside blocker, p-nitrobenzylthioinosine (NBMPR), and adenosine deaminase inhibitor, erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA). In a randomized study, 16 dogs were instrumented with minor-axis LTZ-piezoelectric crystals and intraventricular pressure transducers to monitor, off bypass, left ventricular performance by using a sensitive and load-independent index of contractility (slope of the stroke work-end-diastolic length relation). Hearts were subjected to 60 minutes of normothermic global ischemia and 120 minutes of reperfusion. Normal saline without (Group 1, n = 8) or with (Group 2, n = 8) NBMPR and EHNA was infused in three boluses into the cardiopulmonary bypass reservoir before ischemia and reperfusion. Transmural serial biopsies were obtained before and during ischemia and reperfusion and analyzed for myocardial adenine nucleotide pool intermediates by using high-performance liquid chromatography. In the control group, three hearts developed ischemic contracture and another three hearts exhibited cardiogenic shock during reperfusion. In the EHNA/NBMPR-treated group, left ventricular performance recovered within 30 minutes of reperfusion (p less than 0.05 vs. control). Myocardial ATP was depleted to 20% of normal in both groups by the end of ischemia (p less than 0.05). Intramyocardial adenosine in the EHNA/NBMPR-treated group was 12-fold greater (15.09 +/- 1.6 nmol/mg protein) than the control group at the end of the ischemic period (p less than 0.05). Inosine was about fourfold higher in the control group (19.07 +/- 1.50 nmol/mg protein) compared with the drug-treated group (p less than 0.05). During reperfusion, myocardial ATP levels increased to approximately 50% of normal in the EHNA/NBMPR group while remaining depressed (20% of normal) in the control group. Thus, despite the dramatic loss of myocardial ATP during ischemia, complete recovery of ventricular performance and significant repletion of ATP during reperfusion were observed when adenosine transport and deamination were modulated during ischemia and reperfusion. These results suggest that 1) the myocardium may have more ATP than is needed for basic cardiac functions and 2) washout of ATP diffusible catabolites is detrimental to ventricular performance during reperfusion. Specific blockade of nucleoside transport resulted in complete functional recovery despite low but critical ATP levels.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Is adenosine 5'-triphosphate derangement or free-radical-mediated injury the major cause of ventricular dysfunction during reperfusion? Role of adenine nucleoside transport in myocardial reperfusion injury. 193 94

The purpose of this study was to determine the changes in cardiac interstitial fluid (ISF) purine metabolites during 90 min of regional myocardial ischemia. To collect ISF metabolites and measure local coronary blood flow (CBF), cardiac microdialysis probes were implanted into the left anterior descending artery (LAD) and left circumflex artery (LC) perfused myocardium of chloralose-urethane anesthetized dogs (n = 7). Regional ventricular wall thickness was measured in the LAD and LC perfused regions with sonomicrometric crystals, using systolic wall thickening (SWT) as an index of regional ventricular function. Regional myocardial ischemia, produced by occlusion of the LAD, resulted in a decrease in CBF (hydrogen clearance) from 77.3 +/- 12.4 to 10.9 +/- 4.4 ml/min/100 g (P less than 0.05), and systolic wall thinning (control SWT = 15.5 +/- 2.2%; ischemic SWT = -6.8 +/- 1.7%). ISF adenosine was transiently elevated in the ischemic region, obtaining a maximum sixfold increase after 15 min of ischemia. Inosine, hypoxanthine, and to a lesser extent xanthine, composed the majority of metabolites which accumulated in the ISF of the ischemic region, accounting for greater than 95% of the total purine metabolites in the ISF after 20 min of ischemia. Despite the marked increase in ISF inosine, hypoxanthine, and xanthine levels, ISF uric acid levels did not increase in the ischemic region. Although CBF and SWT did not change in the nonischemic LC perfused area, there were small transient increases (two- to fourfold) in ISF adenosine, inosine, and hypoxanthine levels. In summary, these data demonstrate that purine metabolites accumulate rapidly in the ISF during myocardial ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interstitial purine metabolites during regional myocardial ischemia. 235 25

The role of adenosine in the development of ischemia induced pathological changes has been examined in Mongolian gerbils. A dramatic increase in the concentrations of adenosine, inosine and hypoxanthine was detected by microdialysis in the dorsal part of hippocampus and in the striatum immediately after 5 min bilateral occlusion of the carotid arteries. From a resting value of about 0.5 microM the concentration of adenosine increased to more than 10 microM. The adenosine levels became normalized within 30 min after ischemia. Inosine and hypoxanthine levels were higher and they increased and also returned towards control somewhat later than adenosine. A second occlusion resulted in a similar but somewhat smaller increase in purine levels. Carotid occlusion for up to 12 min had no major, lasting effect on the binding to adenosine A1-receptors in the CA-regions of the hippocampus, as determined by autoradiography. Neuronal and vascular changes (degeneration of neurons, mitochondrial destruction and ribosomal disaggregation, astroglial oedema) due to ischemia (3-12 min, followed by 48 h recirculation) was studied with light and electron microscopy in the selectively vulnerable CA1 area of hippocampus. In one series of experiments the adenosine antagonist theophylline (20 mg/kg i.p.), given 15 min prior to a 5 min occlusion, significantly enhanced the ischemia induced changes. In another experiment the adenosine uptake inhibitor propentofylline (HWA 285, 10 mg/kg), injected 15 min before a 12 min carotid occlusion, reduced the neuronal (90%) and astroglial changes (84%) due to ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protective effect of adenosine and a novel xanthine derivative propentofylline on the cell damage after bilateral carotid occlusion in the gerbil hippocampus. 236 91

Inosine and adenosine formation was evaluated in different types of rat skeletal muscle during ischemic and non-ischemic contraction. Extensor digitorum longus (EDL, fast) and soleus (slow) muscles were stimulated electrically via the sciatic nerve (5 Hz, 10 min). Under non-ischemic condition, the concentrations of IMP, inosine, adenosine, and hypoxanthine increased in EDL muscles but not in soleus muscles during stimulation. Under ischemic condition, these metabolites increased in both EDL and soleus muscles, although the increases in IMP and inosine were greater in EDL muscles. The increase in inosine had a strong positive correlation with that in IMP in ischemic EDL and soleus muscles, but the ratio, delta inosine/delta IMP was smaller in EDL muscles. The increase in adenosine under ischemic condition was not significantly different between the two muscles. These findings suggest that ischemia enhances degradation of purine nucleotides in contracting fast and slow muscles, and that although the degradation of purine nucleotides to IMP is greater in fast muscles than in slow muscles, the relative degradation rate of IMP to inosine is rather smaller in fast muscles.
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PMID:Inosine and adenosine formation in ischemic and non-ischemic contracting muscles of rats: difference between fast and slow muscles. 317 30

The aim of this study was to differentiate myocardial reperfusion injury from that of ischemia. We assessed the role of the myocardial adenosine 5'-triphosphate (ATP) catabolites, hypoxanthine and xanthine, generated during ischemia and the early phase of reperfusion, in reperfusion injury by modulating adenosine transport and metabolism with specific metabolic inhibitors. This was followed by intracoronary infusion of exogenous hypoxanthine and xanthine. Twenty-four dogs instrumented with minor-axis piezoelectric crystals and intraventricular pressure transducers were subjected to 30 minutes of normothermic global myocardial ischemia and 60 minutes of reperfusion. In Group 1 (n = 7), normal saline was infused into the cardiopulmonary bypass reservior before ischemia and before reperfusion. Saline solution containing 25 microM p-nitrobenzylthioinosine (NBMPR) and 100 microM erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) was infused in Group 2 (n = 10) dogs. Group 3 (n = 7) dogs were treated exactly like those in Group 2 except, at the end of the ischemic period and immediately before releasing the cross-clamp, a solution of EHNA-NBMPR containing 100 microM hypoxanthine and 100 microM xanthine was infused into the aortic root. Left ventricular performance and myocardial adenine nucleotide pool intermediates were determined before and after ischemia. ATP was depleted by about 50% (p less than 0.05 vs. preischemia) in all groups after 30 minutes of ischemia. Inosine was the major ATP catabolite (9.29 +/- 1.2 nmol/mg protein) in Group 1, while adenosine (9.91 +/- 0.7 nmol/mg protein) was the major metabolite in EHNA-NBMPR-treated dogs (Groups 2 and 3). Hypoxanthine levels were fivefold more in Group 1 compared with Groups 2 and 3 (p less than 0.05). Left ventricular performance in Group 1 decreased from 76.8 +/- 7.6 to 42.9 +/- 9.8 and 52.3 +/- 8.4 dynes/cm2 x 10(3) (p less than 0.05), while myocardial ATP decreased from 30.9 +/- 2.2 to 17.2 +/- 1.0 and 16.5 +/- 1.0 nmol/mg protein during 30 and 60 minutes of reperfusion, respectively (p less than 0.05 vs. preischemia). Ventricular function in Group 2 dogs completely recovered within 30 minutes of reperfusion, and myocardial ATP recovered to the preischemic level at 60 minutes of reperfusion. In Group 3, left ventricular performance was depressed by 39% and 30% during 30 and 60 minutes of reperfusion (p less than 0.05), respectively, and myocardial ATP did not recover during reperfusion despite a significant intramyocardial adenosine accumulation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Myocardial reperfusion injury. Role of myocardial hypoxanthine and xanthine in free radical-mediated reperfusion injury. 318 Apr 2

The effects of the adenosine deaminase inhibitor, deoxycoformycin, on purine release from the rat cerebral cortex were studied with the cortical cup technique. Deoxycoformycin (5 and 500 micrograms/kg i.v.) enhanced the hypoxia/ischemia-evoked release of adenosine from the cerebral cortex, indicating a marked rise in the adenosine content of interstitial fluid in the cerebral cortex. Inosine and hypoxanthine release were attenuated at the higher dose of deoxycoformycin. Uric acid release into the cortical perfusates was enhanced at the higher dose level. These results demonstrate that low doses of deoxycoformycin can be used to elevate interstitial levels of adenosine in the brain during hypoxia, and to depress the formation of some of its metabolites. The elevation of hypoxia/ischemia-evoked adenosine levels can account for the previously reported potentiation of hypoxia-evoked increases in rat cerebral blood flow after deoxycoformycin administration. The potential therapeutic utility of these findings is discussed.
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PMID:Effects of deoxycoformycin on adenosine, inosine, hypoxanthine, xanthine, and uric acid release from the hypoxemic rat cerebral cortex. 326 16

Isosine improved post-transplantation function of canine kidneys subjected to thirty minutes of normothermic ischemia followed by flushing and twenty-four-hour cold storage. Inosine was not able to improve renal preservation when cold storage was extended to forty-eight hours after thirty minutes of normothermic ischemia.
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PMID:Renal preservation with inosine. 699 75

Inosine administered into the renal artery improves renal ischemic tolerance. The study was designed to establish the limitations of this measure by comparing its effectiveness with that of regional hypothermia and to test the possibility of combining inosine and hypothermia in prolonged renal hypothermia. In uninephrectomized dogs, the remaining kidney was subjected to 2 h of ischemia under inosine protection; perfusion cooling, or no protection (experiment A), or to 90 min of warm ischemia plus inosine plus 90 min of cold ischemia; 90 min of warm plus 90 min of cold ischemia, or 180 min of cold ischemia (experiment B). Whereas perfusion cooling reliably prevented permanent loss of renal function even after 180 min of ischemia, inosine was clearly inadequate for protection against warm ischemia exceeding 90 min, but effective in shorter periods of ischemia with some unreliability in borderline cases. Inosine protection can be combined with hypothermia in a sequential manner if extended ischemia becomes necessary unexpectedly. For clinical use, however, it seems safer to commence with hypothermia after 60 min of inosine-protected warm ischemia. Simultaneous balloon occlusion of the renal artery and transcatheter perfusion cooling facilitates the clinical applicability of these results.
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PMID:Inosine: alternative or adjunct to regional hypothermia in the prevention of post-ischemic renal failure? 735 66

Excitatory amino acid release and neurotoxicity in the ischemic brain may be reduced by endogenously released adenosine which can modulate both glutamate or aspartate release and depress neuronal excitability. The present study reports on the patterns of release of glutamate and aspartate; the inhibitory amino acids GABA and glycine; and of the purine catabolites adenosine and inosine from the rat parietal cerebral cortex during 20 and 60 min periods of middle cerebral artery (MCA) occlusion followed by reperfusion. Aspartate and glutamate efflux into cortical superfusates rose steadily during the period of ischemia and tended to increase even further during the subsequent 40 min of reperfusion. GABA release rose during ischemia and declined during reperfusion, whereas glycine efflux was relatively unchanged during both ischemia and reperfusion. Adenosine levels in cortical superfusates rose rapidly at the onset of ischemia and then declined even though MCA occlusion was continued. Recovery to pre-occlusion levels was rapid following reperfusion. Inosine efflux also increased rapidly, but its decline during reperfusion was slower than that of adenosine.
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PMID:Amino acid and purine release in rat brain following temporary middle cerebral artery occlusion. 782 64

A protective effect of metipranolol on renal ischemia has recently been demonstrated in our laboratory. The aim of present work was to investigate the effect of this drug on a model of total hepatic ischemia. Inosine was chosen as a comparative agent. Metipranolol (1 mg.kg-1) or inosine (160 mg.kg-1) were given i.v. to rats 15 min prior to inducing of 30-min lasting hepatic ischemia. The animals were followed up for 90 min after the end of ischemia. Pretreatment with inosine almost removed the harmful effect of ischemia on bile flow. Pretreatment with metipranolol slightly minimized the post-ischemic bile flow fall, this effect having been statistically significant only at 30. min of postischemic period. Neither inosine, nor metipranolol administration influenced significantly the ALT or AST plasma activity 90 min after release of hepatic vessels occlusion.
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PMID:The effect of metipranolol and inosine on total hepatic ischemia of rats in vivo. 790 75

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