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)

Postischemic reperfusion injury can be modified by transient low calcium (Ca2+) reperfusion, although the data on the optimal [Ca2+] are controversial. High-energy phosphates and contractile function of isolated perfused rat hearts (37 degrees C, 300 beats/min) were studied simultaneously during global ischemia (30 min) and reperfusion (10 min at [Ca2+] = 1.3, 0.05, 0.1, 0.3, 0.5 and 0.7 mmol/l, followed by 20 min at [Ca2+] = 1.3 mmol/l), using phosphorus-31 nuclear magnetic resonance (31P NMR) spectroscopy. Reperfusion with 1.3 mmol/l Ca2+ after 0.05 or 0.1 mmol/l Ca2+ largely abolished the recovery of ATP obtained during initial low Ca2+ reperfusion (calcium paradox effect). A [Ca2+] of 0.3 mmol/l was sufficiently high to prevent this detrimental effect; at the same time this concentration was sufficiently low to cause a substantial recovery of ATP, which was maintained upon switching to 1.3 mmol/l Ca2+. Recovery of ATP did not correlate with recovery of contractile function.
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PMID:A phosphorus-31 nuclear magnetic resonance study of myocardial ATP content during postischemic low calcium reperfusion. 202 52

To evaluate changes in coronary blood flow during allograft rejection, 16 beagles with cervical cardiac allografts from mongrel donors were immunosuppressed postoperatively for 7 days with cyclosporine (20 mg/kg orally) and prednisone (0.5 mg/kg orally). They were weaned from immunosuppression over 3 days and then treated with methylprednisolone (30 mg/kg/day IV), cyclosporine (20 mg/kg orally), and prednisone (0.5 mg/kg orally) for 4 days. Previous experiments with this model have suggested the utility of phosphorus 31 nuclear magnetic resonance spectroscopy (31P NMR) in the diagnosis of rejection. Therefore in 10 dogs (NMR group) bioenergetic changes during rejection were assessed using the 31P NMR index of the ratio of phosphocreatine to inorganic phosphate (PCr/Pi). To correlate coronary blood flow and graft ischemia with allograft rejection, six dogs (FLOW group) underwent placement of a magnetic flow probe on the left anterior descending coronary artery to determine mean and peak coronary flow. In both NMR and FLOW groups, grafts were evaluated by endomyocardial biopsy (grading 0 to 8 for increasing rejection), and measurement of lactate production and left ventricular end-diastolic pressure. During the initial 7 days of immunotherapy, cellular rejection was effectively suppressed, and the bioenergetic status of the grafts remained stable (day 7: PCr/Pi = 70% of baseline, biopsy score = 2.0). During weaning of immunotherapy, however, the metabolic profile of the grafts decayed (day 10: PCr/Pi = 45% of baseline, biopsy score = 5.8; p less than 0.05 vs day 0). After 4 days of augmented immunosuppression, PCr/Pi recovered to 83% of baseline; this metabolic recovery corresponded with an improvement in mean biopsy score to 3.2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Coronary blood flow does not decrease during allograft rejection in heterotopic heart transplants. 203 21

To investigate the high-energy phosphate metabolic correlates of left ventricular (LV) dysfunction during the onset and recovery from severe, global myocardial ischemia in vivo, seven preinstrumented closed-chest dogs had ECG-gated phosphorus-31 (31P) NMR-spectroscopy (NMR-S) studies performed and LV micromanometer and sonomicrometer data measured before, during, and every 5 min following severe occlusive global myocardial ischemia. Ischemic LV + dP/dtmax fell from 2396 +/- 576 mm Hg/s at baseline to 2185 +/- 478 mm Hg/s (p less than 0.05) and did not normalize until after 30 min of reperfusion. LV ejection fraction (EF) decreased significantly (0.32 +/- 0.07 EF units to 0.12 +/- 0.13 EF units; p less than 0.05) and did not recover by 30 min of reperfusion (0.27 +/- 0.09 units; P less than 0.05 vs baseline). Simultaneous 31P NMR-S studies demonstrated excellent beta-ATP signal-to-noise (10 +/- 4:1). Myocardial acidosis occurred during global ischemia (delta pH = -0.22 +/- 0.23 units; p less than 0.05), with recovery at 30 min of reperfusion. Inorganic phosphate/phosphocreatine ratio (Pi/PCr) increased significantly during ischemia (0.46 +/- 0.07 to 0.61 +/- 0.07; P less than 0.05), with delayed normalization of this ratio at 30 min of reperfusion. beta-ATP peak area did not change during ischemia. Pi/PCr and LV contractility (+dP/dtmax) were significantly correlated at baseline (r = -0.70) and during global ischemia (r = -0.78; p less than 0.01), but not during recovery (r = 0.006; p = NS). Therefore, the simultaneous evaluation of high-fidelity hemodynamic data and topical 31P NMR-S can be performed in the intact state.
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PMID:Simultaneous cardiac mechanics and phosphorus-31 NMR spectroscopy during global myocardial ischemia and reperfusion in the intact dog. 206 6

Two metabolically distinct cell populations were detected when two peaks of inorganic phosphate (Pi), corresponding to two pHi values, were recorded by Phosphorus Magnetic Resonance Spectroscopy (31P MRS). One cell population, having intracellular pH (pHi) values less than 6.3, was thought to contain neither PCr (phosphocreatine) nor ATP and was thus considered metabolically unstable or inactive. The second cell population, having normal or near normal pHi, was considered metabolically active with adequate values of ATP and PCr. We can therefore further analyze the bioenergetics in this cell population. The results were based upon studies of 14 ischemic dogs that were anesthetized with 2% isoflurane and ventilated. The amount of Pi associated with the acidic cell population (low pHi) was used to calculate the fraction of metabolically inactive brain tissues. This value correlated well with the ATP depletion of the total cell population. This suggests that in the acidic cell population, PCr and ATP supplies were depleted by dephosphorylation during ischemia, leading to an accumulation of acidic Pi. In addition, ATP synthesis in this population may be inhibited by the low intracellular pH. On the other hand, the bioenergetic state of the metabolically stable cell population having a nearly neutral pHi changed markedly during ischemia. The PCr/Pi dropped to 0.8 and the phosphorylation potential (PP) dropped to 10 mM-1 from 40 mM-1. With reperfusion, two distinct patterns of responses were observed. One group showed the restoration of ATP (recovery group) whereas the second group did not (non-recovery group). After 3 h of reperfusion, the ATP restored group showed complete recovery of PCr.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Metabolic heterogeneity in brain tissue during incomplete ischemia and reperfusion. 209 39

Serial 31P nuclear magnetic resonance spectra were acquired from the brain in 19 rats following microsphere embolization of the right internal carotid artery. The brains were sectioned and stained with 2,3,5-triphenyltetrazoline chloride 6 h post-embolization to visualize infarcted areas. There was a narrow dosage range for the effect of embolism measured by maximum decline in pH at 20 min, mortality, and infarct size. This narrow range effect may be due to occlusion of collateral channels by the 16 micron microspheres. There was a strong correlation between decline in pH at 20 min post-embolization and infarct size (r2 = 0.76); this decline was the best early marker for eventual infarct in our study. This animal model for macroscopically heterogenous brain ischemia may be useful for the evaluation of therapeutic interventions in stroke, and as an aid in the interpretation of phosphorus spectra from mixed volumes of ischemic and non-ischemic brain.
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PMID:31P spectroscopy in experimental embolic stroke: correlation with infarct size. 209 41

We used neonatal piglets to determine the influence of plasma glucose concentration on cerebral energy metabolism during and immediately after partial ischemia. We assessed cerebral metabolism using in vivo phosphorus-31 magnetic resonance spectroscopy. Arterial plasma glucose concentration was increased in four piglets by systemic infusions of dextrose in water for comparison with infusions of saline in four controls or decreased in eight piglets by fasting for 24-48 hours for comparison with four fed piglets. Plasma glucose concentration showed a significant linear correlation with intracellular pH (r = -0.7, p less than 0.05). Piglets that developed hypoglycemia during partial ischemia had a smaller reduction in intracellular pH and a larger increase in inorganic phosphate content than piglets that were normoglycemic or hyperglycemic during ischemia. Similar differences persisted during the first 5 minutes of postischemic reperfusion. Subsequently, the cerebral concentrations of phosphorylated compounds returned to normal in all piglets. Our results demonstrate that 1) arterial plasma glucose concentration influences cerebral energy metabolism and intracellular pH during ischemia, 2) neonatal piglets can develop profound brain acidosis, and 3) brain acidosis during ischemia does not influence the restoration of cerebral phosphorylated compounds to control levels during the first 90 minutes after ischemia.
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PMID:Effect of plasma glucose concentration on cerebral metabolism during partial ischemia in neonatal piglets. 210 36

Calcium has been implicated as a mediator of cell injury in ischemia and reperfusion, but direct measurements of Ca2+ are required to refine this idea. We used nuclear magnetic resonance spectroscopy and the Ca2+ indicator 5F-BAPTA to measure [Ca2+]i in perfused ferret hearts. Several lines of evidence are presented to show that loading with the acetoxymethyl ester of 5F-BAPTA is not significantly complicated by accumulation of partially de-esterified metabolites, compartmentalization into mitochondria, or disproportionate uptake into endothelial cells. During 20 minutes of total global ischemia at 30 degrees C, time-averaged [Ca2+]i increased significantly, reaching peak values roughly three times control at 15-20 minutes. Reperfusion resulted in a persistent elevation of [Ca2+]i during the first 5 minutes, but not afterward. Although the nonlinear response of 5F-BAPTA to [Ca2+] leads to underestimation of the true time-averaged [Ca2+]i, the measured alterations of intracellular Ca2+ homeostasis during ischemia are large compared with the likely errors in quantification. Phosphorus nuclear magnetic resonance spectroscopy of 5F-BAPTA-loaded hearts reveals changes during ischemia similar to those recorded previously in hearts not containing a Ca2+ indicator. Developed pressure recovers to only 50% of control values during reflow, indicating that the presence of 5F-BAPTA in the cytosol does not protect against stunning, at least when the extracellular calcium concentration has been raised to 8 mM. We conclude that 5F-BAPTA provides useful measurements that reveal that time-averaged [Ca2+]i rises during ischemia and returns to control levels soon after reperfusion.
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PMID:Quantification of [Ca2+]i in perfused hearts. Critical evaluation of the 5F-BAPTA and nuclear magnetic resonance method as applied to the study of ischemia and reperfusion. 211 May 15

The effects of short-duration forebrain ischemia on cerebral metabolism in the rat have been studied using several nuclear magnetic resonance (NMR) techniques. In vivo phosphorus-31 (31P) NMR spectroscopy showed that the model produces rapid cerebral energy failure and acidosis. Reperfusion was accompanied by recovery of high-energy metabolites in about 30 minutes, with a slower recovery of pH. Proton (1H) NMR spectra of perchloric acid extracts of selected brain regions showed that levels of alanine and gamma-aminobutyric acid (GABA) were elevated and the level of glutamate was depressed immediately after the ischemic insult, returning to normal by 24 hours. The lactate level remained elevated for up to 7 days after ischemia, suggesting ongoing abnormal mitochondrial function. Postischemic cerebral glucose metabolism was monitored using carbon-13 (13C)-labelled glucose as an NMR probe. Glycolysis was impaired immediately after the ischemic insult, resulting in accumulation of glucose in the tissue and reduced formation of amino acids and tricarboxylic acid cycle intermediates. Glycolysis recovered by 1 hour, but underwent a secondary decrease at 24 hours, the time at which neuronal injury became manifest histologically and physiologically. Nuclear magnetic resonance imaging was used to follow the regional development of tissue injury in selectively vulnerable brain regions. Striatal changes were evident by 24 hours after reperfusion, increasing in intensity and accompanied by hippocampal changes by 48 hours, then becoming less pronounced by 72 hours. Histologic analysis of regional neuronal injury correlated well with the imaging results, establishing NMR imaging as a noninvasive method of visualizing the regional development of ischemic tissue injury.
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PMID:Experimental cerebral ischemia studied using nuclear magnetic resonance imaging and spectroscopy. 215 86

Previous studies in our laboratory have demonstrated the peroxidation of myocardial phospholipid in a canine model of reversible global normothermic ischemia and reperfusion while on cardiopulmonary bypass. The present study examines the distribution of phospholipid peroxidation products in three major cellular organelle fractions of myocardium prepared by established centrifugal fractionation procedures (sarcolemma, sarcoplasmic reticulum, and mitochondria). These organelles were isolated from control (nonischemic) and ischemic-reperfused myocardium harvested during early reperfusion (5 min), when previous studies indicated maximal peroxidative injury in whole myocardial biopsies. Utilizing a more rapid analytic procedure for measuring phospholipid containing the conjugated diene chromophore in the polyunsaturated fatty acyl substituents, we were able to establish the fidelity of this procedure by comparing the results obtained with it to the previous more laborious analytic procedure (involving phospholipid hydrolysis with phospholipase A2 and subsequent derivatization for high-pressure liquid chromatography followed by gas chromatographic-mass spectrometric analysis). Analysis of phospholipid extracts from organelle fractions for evidence of peroxidative conjugated diene formation revealed that sarcolemmal membranes had the highest content of oxidized phospholipid containing the conjugated diene chromophore (mean 2.2 +/- 1.2 nmol phospholipid-conjugated diene/mumol phospholipid phosphorus, P less than 0.02 compared with control). Both sarcoplasmic reticulum and mitochondrial membranes were also peroxidized but to a much smaller extent (mean 0.4 +/- 0.2 and 0.3 +/- 0.25 nmol phospholipid conjugated diene/mumol phospholipid phosphorus).
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PMID:Subcellular distribution of peroxidized lipids in myocardial reperfusion injury. 216 62

Pharmacological inhibition of excitatory neurotransmission attenuates cell death in models of global and focal ischemia and hypoglycemia, and improves neurological outcome after experimental spinal cord injury. The present study examined the effects of the noncompetitive N-methyl-D-aspartate receptor blocker MK-801 on neurochemical sequelae following experimental fluid-percussion brain injury in the rat. Fifteen minutes after fluid-percussion brain injury (2.8 atmospheres), animals received either MK-801 (1 mg/kg, i.v.) or saline. MK-801 treatment significantly attenuated the development of focal brain edema at the site of injury 48 h after brain injury, significantly reduced the increase in tissue sodium, and prevented the localized decline in total tissue magnesium that was observed in injured tissue of saline-treated animals. Using phosphorus nuclear magnetic resonance spectroscopy, we also observed that MK-801 treatment improved brain metabolic status and promoted a significant recovery of intracellular free magnesium concentrations that fell precipitously after brain injury. These results suggest that excitatory amino acid neurotransmitters may be involved in the pathophysiological sequelae of traumatic brain injury and that noncompetitive N-methyl-D-aspartate receptor antagonists may effectively attenuate some of the potentially deleterious neurochemical sequelae of brain injury.
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PMID:Effect of noncompetitive blockade of N-methyl-D-aspartate receptors on the neurochemical sequelae of experimental brain injury. 216 32


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