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 effect of AMG-1 [6(5-hydroxy-2-methylpyridylamino)-9 ribofranosylpurine] on mouse brain energy metabolism in complete brain ischemia induced by decapitation and on neurological deficit and histopathological changes after occlusion of the middle cerebral artery (MCAO) in rats were studied. The results indicate that AMG-1 has an effect of improving the status of energy metabolism in complete brain ischemia in mice. Lactate concentration was greatly reduced and the ATP and phosphocreatine levels were significantly elevated. Treatment with AMG-1 or nimodipine was performed before and after MCAO. The score of neurological deficit was significantly decreased as compared with the vehicle treated group. The extent of ischemic neuronal injury was determined by histopathological examination. AMG-1 and nimodipine seemed to attenuate the MCAO-induced neuronal damage. In as much as AMG-1 can improve the status of brain energy metabolism, neurological deficit and neuronal damage after ischemic insult, AMG-1 may have a beneficial effect for the treatment of cerebral ischemic damage.
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PMID:[Effects of AMG-1 on energy metabolism and neuronal damage of ischemic brain in mice and rats]. 182 85

Despite the long-standing effort to identify a noninvasive method of diagnosing intestinal ischemia, no reliable biochemical or radiographic technique has evolved. We explored the use of phosphorus nuclear magnetic resonance (PNMR) as a method of detecting surgically induced intestinal ischemia. Using Lewis strain rats (250 to 300 g), small intestine ischemia was produced by ligation in succession from the ligament of Treitz to the ileocecal valve 1 of 2 (group I), 2 of 3 (group II), 3 of 4 (group III), and 4 of 5 (group IV) mesenteric terminal vessels. A sham-operated group was used as a control. Following the surgical procedure, the abdomen was closed and the rat positioned under the PNMR apparatus. Using phosphorus spectroscopy, data were analyzed using a computer program and plotted on a graph indicating relative peaks for the phosphate-based compounds. As a means of comparing groups, we devised an inorganic phosphate to phosphocreatine ratio ("ischemia index"), a qualitative measurement indicating trends used to evaluate ischemia. At the completion of the PNMR study, the abdomen was reopened and proximal, mid, and distal small intestine segments were harvested for histological evaluation using a previously established grading system for intestinal ischemia. Preoperatively, immediately postoperatively, and approximately 2 hours postoperatively, blood samples were obtained for hexosaminidase levels. With increasing vascular ligation, there was an upward trend in both the histological appearance of ischemia and the PNMR ischemia index indicative of increasing tissue ischemia. A similar trend was identified when the histological ischemia grade was directly correlated with the PNMR ischemia index. Hexosaminidase levels did not correlate with ischemia in this study.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nuclear magnetic resonance as a noninvasive method of diagnosing intestinal ischemia: technique and preliminary results. 183 12

Noninvasive 31P nuclear magnetic resonance measurements indicate that during the initial reperfusion phase myocardial tissue contents of phosphocreatine (PCr) recover rapidly, while ATP levels remain low and recover slowly. There is also a burst of H2O2 during the first 10 min of reperfusion, as indicated by the in vivo inactivation of catalase that occurs only when H2O2, and the inactivator 3-aminotriazole (AMT), are simultaneously present. Neither H2O2 production nor CK inactivation was discernable after ischemia alone. In excitable tissue the PCr and ATP pools are equilibrated by the enzyme creatine kinase (CK), but myocardial CK activity is decreased by 20% after reperfusion, though not by simple washout. Extrapolating from the well-known air sensitivity of CK, we find that limited exposure in vitro to small concentrations of H2O2 can markedly diminish CK activity. We postulate that failure of certain CK isoenzymes at energy-using termini may decouple the relative rates of PCr production and ATP regeneration and hence cause elevated PCr-to-ATP ratios. The assumptions of 1) CK equilibrium during the reperfusion period to calculate free ADP levels and 2) cardiac recovery deduced from the elevation of PCr levels may require reexamination.
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PMID:Oxygen metabolite effects on creatine kinase and cardiac energetics after reperfusion. 187 84

31P NMR spectra and 1H MR T1- and T2-weighted spin-echo images were concurrently observed in rat hind limb during arterial occlusion and following reperfusion. With arterial occlusion, phosphocreatine level decreased and inorganic phosphate (Pi) level increased in 31P NMR spectra. Intracellular pH's dropped as a function of time. Beta-ATP started to decrease in three hours. In six hours after the occlusion, any peaks other than Pi were scarcely detected. The signal intensities in the 1H MR images increased homogeneously in both T1- and T2-weighted conditions, but the changes were more profound with T2-weighted images. After the release of the arterial occlusion, the 31P NMR spectra recovered to the preischemic state in several hours. The 1H MR images during reperfusion showed characteristic heterogenous pattern. The signal intensities in the anterior tibial muscle and the gastrocnemius muscle remained high in T1-weighted condition and the intensities further increased in T2-weighted condition, while those in other parts returned to the preischemic level. These changes were found to be irreversible even 12 hr after the release. The high signal intensities suggested the increase of water in the extracellular compartment induced by so-called reperfusion injury. Multinuclear analysis using in vivo NMR was valuable to consecutively detect time-dependent and location-specific response in skeletal muscle during ischemia and reperfusion.
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PMID:Observation of rat hind limb skeletal muscle during arterial occlusion and reperfusion by 31P MRS and 1H MRI. 188 Dec 44

The effects of phosphocreatine and tocopheryl phosphate and their combined use in ischemia and reperfusion of the heart were studied in anesthetized dogs. The investigation focused on the size of myocardial infarction and left ventricular contractility, ischemic and reperfusion arrhythmias were assessed using Holter monitoring. Phosphocreatine was found to reduce the number of arrhythmias and to prevent the fatal outcomes in myocardial ischemia animals but not to influence the reperfusion rhythm disturbances. Combined administration of tocopheryl phosphate and phosphocreatine, in contrast to their isolated use, completely prevented the development of ventricular fibrillations and fatal outcomes in the animals with reconstructed coronary flow. Administration of phosphocreatine restricted the infarction size, combined use of the drugs facilitated its further reduction, while the group with isolated administration of tocopheryl phosphate showed the infarction size to differ insignificantly from the control values. Combined administration of the drugs, unlike their use alone, improved left ventricular contractility in reperfusion of ischemic myocardium. The cardioprotective effect observed in combined administration of the drugs was attended with depressed lipid peroxidation in reperfused myocardium.
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PMID:[Phosphocreatine, tocopheryl phosphate and their combination in acute ischemia and myocardial reperfusion in dogs: the effect on rhythm disorders, left ventricle contractility and infarct size]. 188 38

This study determined whether the rapidity of myocardial metabolic and contractile recovery after brief coronary occlusion depends upon the intensity of reactive hyperemia. We also tested the hypothesis that coronary flow rate modulates contractility after brief myocardial ischemia, independent of changes in phosphorus metabolites. Eight open-chest pigs were studied with phosphorus-31 nuclear magnetic resonance (NMR) spectroscopy with 14 s time resolution. After a 29-s anterior descending coronary occlusion, peak Doppler coronary flow velocity was alternately unrestricted (normal hyperemia, 443 +/- 40% of control) or limited to 159 +/- 9% of control. During 29 s coronary occlusion, phosphocreatine-to-inorganic phosphate ratio (PCr/Pi) and systolic segment shortening in the ischemic region fell to 28 +/- 4 and 7 +/- 7% of control, respectively. With normal hyperemia, PCr/Pi and segment shortening recovered within 29 s. With blunted hyperemia, recovery of both parameters was delayed an additional 29-43 s, associated with reduced subendocardial blood flow (measured with radioactive microspheres) and persistent intracellular acidosis. However, the relationship between segment shortening and PCr/Pi was unaffected by the intensity of reactive hyperemia. Thus blunted reactive hyperemia significantly delays metabolic and contractile recovery from brief ischemia, probably via transient maldistribution of transmural perfusion. However, coronary blood flow rate does not independently modulate contractility after brief reversible ischemia.
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PMID:Metabolic and functional consequences of blunted myocardial reactive hyperemia. 188 33

The metabolic effects of kynurenate, an endogenous excitatory amino acid antagonist, were studied by in vivo 31P-NMR spectroscopy before, during and after reversible forebrain ischemia in the rat. Kynurenate had no effect on cerebral metabolism before ischemia. During a 30-min ischemia, kynurenate protected against the decrease in phosphocreatine (up to -55 +/- 3% vs -73 +/- 3% in the reference group) and the increase in inorganic phosphate (up to +479 +/- 39% vs +805 +/- 66%), whereas there was no statistical difference in the decrease in intracellular pH (up to 6.37 +/- 0.05 vs 6.30 +/- 0.03) and ATP (up to -60 +/- 3% vs -60 +/- 7%). The recovery of PCr, Pi, and pHi to control levels during recirculation was faster in the treated group than in the reference group, whereas the time course of ATP recovery was similar in both groups. We conclude that kynurenate protects against neuronal loss, as previously reported, by mechanisms other than metabolic protection.
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PMID:Metabolic effects of kynurenate during reversible forebrain ischemia studied by in vivo 31P-nuclear magnetic resonance spectroscopy. 188 1

Isolated Langendorff-perfused guinea pig hearts were arrested with a cardioplegic solution containing 10 mM phosphocreatine + 15 mM glutamate (PG group) or not containing them (control group). Total normothermic ischemia lasted 45 min followed by 30 min reperfusion. Mitochondrial respiration in the absence and presence of different concentrations of ADP and creatine was studied in biopsy samples after saponin treatment. The samples were taken before and after ischemia as well as after the reperfusion period. A slightly better relative recovery of developed pressure (RRDP) in PG group was associated with higher mitochondrial acceptor control ratio after reperfusion. When results in both groups were taken together, marked negative correlations between the preischemic mitochondrial indices (particularly, those related to creatine kinase activity) and RRDP were revealed. Relative changes in these indices after ischemia demonstrated tight positive correlations with RRDP. Thus, the hearts having higher functional activity of mitochondrial creatine kinase are more sensitive to ischemia, other conditions being equal.
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PMID:[High functional activity of mitochondrial creatine kinase of the myocardium before ischemia is tied with the worst restoration of contractility after reperfusion]. 189 69

We superimposed extreme hypercapnia (arterial Pco2 400-450 mmHg) immediately before and during incomplete cerebral ischemia to distinguish the role of intracellular pH (pHi) and bicarbonate [( HCO3-]i) in postischemic metabolic and electrophysiological recovery. Incomplete global ischemia was produced in seven anesthetized dogs by 30 min of intracranial hypertension followed by 4 h of reperfusion. ATP, phosphocreatine (PCr), and pHi were measured with 31P magnetic resonance spectroscopy, and [HCO3-]i was calculated from the Henderson-Hasselbalch equation using the measured pHi and sagittal sinus Pco2. Cerebral blood flow was reduced to 7 +/- 1 ml.min-1.100 g-1 (+/- SE) during ischemia with extreme hypercapnia, and pHi decreased to 5.72 +/- 0.09. During normocapnic reperfusion, pHi rapidly returned to near baseline values by 14 min. [HCO3-]i fell from 12.1 +/- 0.9 to 6.0 +/- 1.2 mM by the midpoint of ischemia and recovered by 30 min of reperfusion. ATP, PCr, and O2 consumption also recovered rapidly and completely. Somatosensory-evoked potentials (SEP) recovered to 43 +/- 10% of control amplitude. These results are in marked contrast to the poor metabolic and SEP recovery previously observed in hyperglycemic dogs in which pHi decreased to the same range as with hypercapnic ischemia, but in which [HCO3-]i was much lower (1.1 +/- 0.5 mM). Therefore, [HCO3-]i depletion during hyperglycemic ischemia may be a more important factor in recovery than end-ischemic pHi per se. We speculate that higher [HCO3-]i may improve glial cell buffering capacity or decrease iron availability for hydroxyl radical production.
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PMID:Bicarbonate conservation during incomplete cerebral ischemia with superimposed hypercapnia. 190 5

Phosphorus-31 nuclear magnetic resonance (P-31 NMR) spectroscopy is able to identify alterations in myocardial high energy phosphate metabolism associated with acute infarction. It was hypothesized that the extent of acute myocardial infarction could be quantitated from changes in the tissue content of inorganic phosphate (Pi), phosphocreatine (PCr) and adenosine triphosphate (ATP) derived from P-31 NMR spectra. Nine isolated, perfused rat hearts were studied at 121.5 MHz. After baseline spectra were obtained, varying locations of either the right or the left coronary artery were occluded without removing the heart from the spectrometer. Spectra were then collected during regional ischemia at 15 and 45 min after occlusion. Phosphate metabolites were quantitated from the baseline and 45-min regional ischemia spectra, times at which the metabolites are at steady state for the normal and ischemic conditions. The heart was removed from the spectrometer, perfused for a total duration of 2 h and sectioned into 2-mm thick slices for triphenyltetrazolium chloride staining. Percent infarct was determined by manual tracing of magnified, digitized images of the stained sections. Coronary blood flow, heart rate and blood pressure were monitored throughout the experiment. Significant linear relations were found between percent infarct (by triphenyltetrazolium chloride staining) and the percent change of beta-ATP (r = -0.74), Pi (r = 0.83) and the PCr/Pi ratio (r = -0.71) at 45 min after coronary occlusion. Coronary flow was also found to correlate significantly with percent infarct (r = -0.70). These results are applicable to in vivo P-31 NMR studies of acute infarction where the volume of interest may include both normal and acutely infarcted myocardium.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Quantitation of the extent of acute myocardial infarction by phosphorus-31 nuclear magnetic resonance spectroscopy. 191 16

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