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)

Hypothermic protection of myocardia during E.C.C. has been estimated on a 35 dogs experimental series and on a clinical series of 700 acquired cardiopathies of adult, including 400 valvular replacements and 300 aorto-coronary by-pass. Experimental results have been estimated by biochemic and morphologic controls done on myocardic samples took up by drillbiopsy. The biochemical study includes among others a dosing of the high-energy phosphorus compounds (P.C. and A.T.P.). Morphological study was done by optic and electronic microscopy. Results made clear the superiority of the hypothermic ischemia at 10 degrees C on the continued perfusion at 32 degrees C with fibrillative heart. An hypothermic protection method with successively cold perfusion of the coronary system and a heart immersion in a salted solution at 4 degrees C has been utilized during valvular and coronary surgery on human in 700 cases. The total mortality was of 5,8 p. 100. The rate of post-operative infarcts was 2,4 p. 100. Incidence of intra-ventricular conduction troubles has been 1,1 p. 100. There was no relation between mortality and morbidity of myocardic origin and the lasting of the ischemic clamp, which were of 21 mn up to 165 mn. The low incidence of complications of myocardic origin is due to the hypothermic protection of the myocardia.
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PMID:[Protection of the myocardium by hypothermia during extracorporeal circulation. Experimental and clinical study]. 1 26

The present paper reviews studies which utilize x-ray microanalysis to determine intracellular ion shifts following several types of cell injury. New data from our own laboratory on several cell injury systems are discussed. Concentration estimates are made by comparison of data from tissues with a series of standards prepared in 20% albumin followed by cryosectioning. Hemorrhagic shock in rats is followed by rapid changes of ions in both muscle and liver. These include increased levels of sodium and chlorine and decreased levels of potassium which can be correlated with deficits in the energy charge. Measurements made over hepatocellular carcinomas in the mouse, induced by safrole show marked changes in comparison with non-transformed cells. These include striking increases in sodium and chloride and decreases in potassium and phosphorus which may be related to growth control. Studies on ischemia produced by arterial clamping in the rat kidney and the dog heart show somewhat similar changes. Moreover, in these models much interest is directed at early increases of cytoplasmic calcium with decreased mitochondrial calcium levels at later intervals. Following reflow, there is a prominent increase of calcium in the cytosol. These changes in calcium may be related to activation of phospholipases producing permeability changes which may contribute to further ion shifts as well as ultimately to cell death. The paper also comments on the use of cryostat sections for some types of routine pathological analysis.
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PMID:The role of ion shifts in cell injury. 52 92

The x-ray microanalysis technique was used to determine the chemical composition of intramitochondrial electron-dense deposits in ischemic myocardial cells. Semi-thin sections were cut from Araldite-embedded tissue and analyzed in a scanning electron microscope equipped with energy- and wavelength-dispersive spectrometers. The energy dispersive spectrum revealed calcium and phosphorus peaks over many mitochondrial deposits. Peak to background ratios of calcium, phosphorus and magnesium obtained with the wavelength dispersive spectrometer were 1.7, 8.8 and 1.2, respectively. There was no consistent relationship in the characteristic peaks of calcium and phosphorus in a given mitochondrial granule. Magnesium appears to be negligible, except in some mitochondrial deposits which lacked calcium, where it was present with a peak to background ratio of two. These results suggest formation of calcium or magnesium phosphate in the mitochondria during ischemia. X-ray microanalysis can provide detailed information on subcellular electrolyte distribution in normal and ischemic myocardial cells and should be attempted with improved methods of tissue preparation.
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PMID:X-ray microanalysis of mitochondrial deposits in ischemic myocardium. 82 7

Myocardial metabolism had been studied in 54 patients with continuous sampling of arterial (A) and coronary sinus (CS) blood during 8- to 10-min periods of control in sinus rhythm, rapid atrial pacing and recovery. The results showed that 17 subjects were normal or had insignificant coronary artery disease (CAD; nonischemic group = NI); 37 patients had significant CAD (ischemic group = 1) and developed clinical, hemodynamic, and electrocardographic evidence of myocardial ischemia during pacing, characterized by angina, elevated left ventricular end-diastolic pressure, and depressed ST segments. During pacing-induced ischemia the following metabolic abnormalities were detected: (1) myocardial anaerobiosis indicated by lactate % uptake ((A-CS)/AS X 100) of -17.2 +/- 5.0% (mean +/- SE); (2) myocardial loss of K+ suggested by an A-CS difference of -0.25 +/- 0.08 mEq/liter (N=18); (3) small but significant loss of inorganic phosphorus (Pi) of -1.0 +/- 1.4% (N=18); and (4) elevation of CS blood creatine phosphokinase activity (N=5). These metabolic abnormalities were temporally related to the other manifestations of myocardial ischemia and were not seen in the NI; Lactate production and Pi loss occurred in 75 and 55% of the IG, respectively, suggesting that accelerated anaerobic glycolysis was the best indicator of myocardial ischemia in man. K+ loss was an unreliable index in this experimental situation, since tachycardia alone caused significant K+ egress from the heart. Lactate production and K+ loss were reduced by nitroglycerin, which abolished angina and improved hemodynamics and electrocardiographic manifestations. That these metabolic abnormalities were not observed in all 1 patients may have been related to methodology, the random distribution of CAD, and the fact that the chemical composition of the CS blood reflects the metabolic balance of both well oxygenated and ischemic areas of the myocardium.
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PMID:Metabolic indicators of myocardial ischemia in man. 120 71

Reperfusion of ischemic skeletal muscle is associated with white blood cell (WBC) sequestration and hydroperoxy-conjugated diene (HCF) formation, a marker of free radical-mediated phospholipid peroxidation. The purpose of this study was to define the kinetics of phospholipid fatty acyl peroxidation, deacylation, and remodeling in postischemic skeletal muscle during prolonged reperfusion in vivo, and to determine whether reperfusion with WBC and plasma-depleted blood would attenuate postischemic phospholipid peroxidation and myocyte necrosis. The isolated, paired, canine gracilis muscle model was used. After 5 h of ischemia, muscles underwent unaltered reperfusion or initial reperfusion with WBC-deficient blood cells resuspended in hydroxyethyl starch, followed by return to normal circulation (modified reperfusion). The concentration of native fatty acids and HCDs of linoleic acid extracted from muscle phospholipids was quantified by gas chromatography and positively identified by mass spectrometry. Ischemia and reperfusion resulted in phospholipid deacylation and a selective increase in phospholipid stearic acid content, but had no effect on total phospholipid phosphorus. Modified reperfusion decreased 1) early HCD formation (54%) and 2) postischemic skeletal muscle necrosis (49%). These data suggest that reperfusion results in phospholipid deacylation and remodeling, and that the initial oxidant stress during reperfusion may be a significant determinant of ultimate muscle necrosis.
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PMID:Phospholipid peroxidation deacylation and remodeling in postischemic skeletal muscle. 133 14

The authors investigated early human focal ischemia with phosphorus-31 nuclear magnetic resonance spectroscopy at 1.89 T to characterize the temporal evolution and relationship of brain pH and phosphate energy metabolism. Data from 65 symptomatic patients were prospectively studied; none of the patients had had ischemic stroke in the internal carotid artery territory before. Twenty-eight neurologically normal individuals served as control subjects. Serial ischemic brain pH levels indicated a progression from early acidosis to subacute alkalosis. When acidosis was present there was a significant elevation in the relative signal intensity of inorganic phosphate (Pi) and significant reductions in signal intensities of alpha-adenosine triphosphate (ATP) and gamma-ATP compared with those of control subjects. Ischemic brain pH values directly correlated with the relative signal intensity of phosphocreatine (PCr) and the PCr index and inversely correlated with the signal intensity of Pi. There was a general lack of correlation between either ischemic brain pH or phosphate energy metabolism and the initial clinical stroke severity. The data suggest a link between high-energy phosphate metabolism and brain pH, especially during the period of ischemic brain acidosis, and the authors propose that effective acute stroke therapy should be instituted during this period.
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PMID:Human focal cerebral ischemia: evaluation of brain pH and energy metabolism with P-31 NMR spectroscopy. 141 Mar 69

The effectiveness of the University of Wisconsin solution on extended myocardial preservation was examined in this study using phosphorus 31-nuclear magnetic resonance spectroscopy. Isolated perfused rat hearts were arrested and stored in four preservation solutions: group 1, modified Krebs-Henseleit solution; group 2, modified St. Thomas' Hospital solution; group 3, oxygenated modified St. Thomas' Hospital solution containing 11 mmol/L glucose; and group 4, University of Wisconsin solution. The changes in myocardial high energy phosphate profiles and the intracellular pH values were measured during 12 hours of cold (4 degrees C) global ischemia and 90 minutes of normothermic reperfusion. Following ischemia, the hearts were assessed for hemodynamic recovery and myocardial water content. During ischemia, adenosine triphosphate depletion was observed in all groups; however, after 5 hours of ischemia, the adenosine triphosphate levels were significantly higher in group 3 compared with the other groups (adenosine triphosphate levels at 6 hours in mumol/gm dry weight: group 3, 7.6; group 4, 3.2; group 2, < 1; p < 0.025). The tissue water content at the end of ischemia was lower with the University of Wisconsin solution compared with the modified St. Thomas' Hospital solution or the oxygenated modified St. Thomas' Hospital solution (in ml/gm dry weight: group 4, 3.0; group 2, 4.4; group 3, 3.9; p < 0.05). The adenosine triphosphate repletion during reperfusion was greater with the University of Wisconsin solution compared with the modified St. Thomas' Hospital solution or the oxygenated modified St. Thomas' Hospital solution (12 mumol/gm dry weight in group 4; 8.1 in group 2; 9.0 in group 3; p < 0.05). Similar findings were obtained for the recovery of left ventricular pressure (in percent of preischemic control: group 4, 70%; group 2, 42%; group 3, 52%; p < 0.01) and coronary flow (group 4, 61%; group 2, 49%; group 3, 49%; p < 0.05). These data suggest that preservation with the University of Wisconsin solution affords improved hemodynamic recovery, enhanced adenosine triphosphate repletion, and reduced tissue edema upon reperfusion; however, oxygenated St. Thomas' Hospital solution with glucose is associated with the preservation of higher myocardial adenosine triphosphate levels during prolonged cold global ischemia. In conclusion, these data indicate that the University of Wisconsin solution might improve graft tolerance of ischemia in clinical heart transplantation.
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PMID:The effectiveness of University of Wisconsin solution on prolonged myocardial protection as assessed by phosphorus 31-nuclear magnetic resonance spectroscopy and functional recovery. 143 17

The metabolic effects of adenosine on regionally ischemic myocardium were investigated in an open-chest rabbit model by means of phosphorus 31 nuclear magnetic resonance (NMR) spectroscopy. Sixteen anesthetized New Zealand white rabbits were subjected to thoracotomy; a reversible snare occluder was placed around a large branch of the left circumflex coronary artery, and an NMR surface coil was positioned adjacent to the myocardium perfused by this vessel. The animals were placed in a 2.0 T CSI spectrometer (GE Medical Systems, Fremont, Calif.), and baseline spectra were acquired. Eight animals were treated with intravenous adenosine (25 mg/kg), and eight rabbits served as control subjects. All animals were subjected to a 10-minute period of ischemia followed by a period of reperfusion. NMR spectra were acquired during both intervals. During the occlusion period, expected increases in inorganic phosphate levels and decreases in phosphocreatine levels were observed in both groups; however, inorganic phosphate increased less in adenosine-treated animals (adenosine: 33 +/- 2.8% total spectral area during occlusion vs control: 41 +/- 3.1%) and phosphocreatine diminished less with adenosine (adenosine: 26 +/- 3% vs control: 13 +/- 1.2%; p < 0.002). No significant differences were seen in beta-adenosine triphosphate levels. In both groups the metabolite levels during reperfusion recovered to near baseline values, although phosphocreatine remained slightly higher in the treated group during early reperfusion. An apparent cardioprotective effect of adenosine on relative phosphocreatine and inorganic phosphate levels can be observed in intact rabbits by means of phosphorus 31 NMR spectroscopy.
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PMID:Metabolic effects of adenosine on regional myocardial ischemia by phosphorus 31 nuclear magnetic resonance spectroscopy. 144 87

Phosphorus 31 nuclear magnetic resonance spectroscopy was used to assess cerebral high-energy phosphate metabolism and intracellular pH in normoglycemic and hyperglycemic sheep during hypothermic circulatory arrest. Two groups of sheep (n = 8 per group) were placed in a 4.7-T magnet and cooled to 15 degrees C using cardiopulmonary bypass. Spectra were acquired before and during circulatory arrest and during reperfusion and rewarming. Intracellular pH and adenosine triphosphate levels decreased during circulatory arrest. Compared with the normoglycemic animals, the hyperglycemic group was significantly more acidotic with the greatest difference observed during the first 20 minutes of reperfusion (6.40 +/- 0.08 versus 6.08 +/- 0.06; p < 0.001). Intracellular pH returned to baseline after 30 minutes of reperfusion in the normoglycemic group but did not reach baseline until 1 hour of reperfusion in the hyperglycemic animals. Adenosine triphosphate levels were significantly higher in the hyperglycemic group during circulatory arrest. Repletion of adenosine triphosphate during reperfusion was similar for both groups. These results support the hypothesis that hyperglycemia during cerebral ischemia drives anaerobic glycolysis and thus leads to increased lactate production and an increase [corrected] in the intracellular acidosis normally associated with ischemia.
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PMID:Hyperglycemia increases cerebral intracellular acidosis during circulatory arrest. 144 97

The rare hungry bone syndrome was encountered in a 15-year-old child after the removal of a parathyroid adenoma. Contrary to the hypocalcemias caused by the removal of all parathyroid glands or transient ischemia after parathyroid surgery, in which the serum inorganic phosphorus level is usually normal, both serum calcium and inorganic phosphorus levels are decreased in hungry bone syndrome in the early postoperative period. Vigorous calcium supplementation and vitamin D are required for prolonged periods.
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PMID:Hungry bone syndrome in a child following parathyroid surgery. 146 51


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