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)

Amino acids are known to increase glomerular filtration rate (GFR). There is also an early resumption of filtration following 2-h renal ischemic stress under protection by histidine-buffered histidine-tryptophan-ketoglutarate solution (HTK), possibly due in part to an amino acid effect. Hence, we have examined the possibility of further enhancing the postischemic GFR by adding 32 (ASP I; 4 mM Mg2+) or 36 (ASP II; 6 mM Mg2+) mM L-aspartate (asp) or 32 mM DL-aspartate (ASP III) to the HTK solution in place of chloride. After infusion of 500 ml 5% glucose, canine kidneys were protected by an 8-min perfusion with HTK (n = 5), ASP I (n = 4), ASP II (n = 5) or ASP III-solution (n = 3). The subsequent ischemia lasted for 2 h at 27-31 degrees C. During reperfusion, both GFR and filtration fraction (FF) were higher in kidneys protected by L-aspartate-containing solutions. ASP III showed no improvement against HTK. An additional preischemic intra-aortal application of HTK or ASP I solution just above the exit of the renal arteries prior to the intrinsic protective perfusion further raised the postischemic GFR. The present results suggest that L-aspartate but also histidine may have favorable amino acid effects in renal protective solutions in addition to known positive effects of histidine.
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PMID:Contribution of amino acids in protective solutions to postischemic functional recovery of canine kidneys. 251 51

Changes in biochemical and electroencephalographic parameters were followed over time during the development of acute hepatic encephalopathy (HE) in two different experimental models. In the rat, (sub)acute liver failure was obtained either by ligation of the hepatic artery in previously portacaval-shunted animals or by intraperitoneal injection of a high dose of galactosamine (GALN). The EEG changes were characterized in both models by a significant increase in low-frequency activity of the EEG power density spectra: the so-called 'left shift'. This 'left shift' was significant in liver ischemia after 4-5 h and in GALN hepatitis after about 30 h. The changes in plasma biochemical indices also showed a great similarity in both models. The concentration of all measured plasma amino acids (except histidine and arginine in GALN hepatitis and arginine in liver ischemia), NH3 and ALAT were significantly increased during the development of (sub)acute HE. Correlation of the combined data of electroencephalographic and biochemical indices showed a significant (P less than 0.01) correlation between the 'left shift' and NH3, taurine, threonine, proline, alanine, methionine, cystathionine, phenylalanine, tryptophan, ornithine and histidine. It is concluded that EEG spectral analysis is a useful parameter for following the development of (sub)acute hepatic encephalopathy in relation to biochemical parameters.
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PMID:Correlation between electroencephalographic and biochemical indices in acute hepatic encephalopathy in rats. 359 63

Changes in cerebral free amino acids, catecholamines and uric acid levels were explored for up to 7 days after cerebral ischemia in the rat. Fifty male Sprague-Dawley rats were subjected to occlusion of the middle cerebral artery on the olfactory tract, under halothane anesthesia. The animals were decapitated at 2, 4, 6, 12, 24 hours and 2, 3, 5, 7 days after the surgery, respectively. The brains were rapidly removed. The cerebral hemispheres were divided into right and left halves, and homogenized in sulfosalicylic acid solution. Free amino acids were analyzed by colormetric method. Cathecholamines and uric acid were analyzed by high-performance liquid chromatography. Each parameters were measured both on the ischemic and contralateral hemispheres. The time course of changes in each parameters were observed by means of the ratio, which is the value of ischemic side divided by that of contralateral side. Free amino acids Dicarboxylic group; Decreases in glutamate and increases in glutamine suggest one aspect of detoxication of ammonia within the ischemia tissue. Monocarboxylic group; GABA, glycine, alanine were increased in early ischemic state, and gradually lowered to the normal values. These suggest the impairment of tricarboxylic acid (TCA) cycle in the ischemic tissues, since these amino acids are closely related to TCA cycle. Essential amino acids, except for tryptophan, were increased until the end of study. These increases suggest the utilization of essential amino acids for protein synthesis might be disturbed in the ischemic tissues. Catecholamines and precursors; Norepinephrine and dopamine were lowered gradually. On the other hand, phenylalanine and tyrosine were increased during ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Biochemical studies of the cerebral ischemia in the rat--changes in cerebral free amino acids, catecholamines and uric acid]. 370 75

Oxygen-derived free radicals and other oxidizing species are thought to be involved in inflammation and ischemic tissue injuries. Recently, oxygen-derived free radicals also have been implicated in tissue injury of the myocardium subjected to ischemia/reperfusion. The purpose of this investigation was to determine if electrolysis of a physiological buffer would serve as a source of free radicals, and if these radicals would lead to alterations in myocardial function. Isolated Langendorff-perfused rabbit hearts perfused with buffer subjected to a 20 mA D.C. current for 2 min demonstrated significant increases in coronary perfusion pressure (37 +/- 6 mmHg), left ventricular end diastolic pressure (41 +/- 7 mmHg), and loss in left ventricular developed pressure (35 +/- 5%). The free radical scavengers, superoxide dismutase and a combination of tryptophan plus glycine, were effective in protecting the hearts from the effects of electrolysis. The presence of free radicals was semiquantitated with a radical-luminol chemiluminescent assay. In this assay a variety of radical scavengers and antioxidants were effective (i.e., dimethyl sulfoxide, nitro blue tetrazolium, ascorbate, superoxide dismutase, 1, 3-diphenylisobenzofuran, and glycine, catalase), whereas mannitol and tryptophan were not effective. The data indicate that electrolysis of a physiological buffer produces a milieu containing several reactive oxygen species or free radicals that have the potential to produce alterations in a biological system. This method has the advantage over existing protocols for the generation of radicals in that it is a blood-free and an enzyme-free system.
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PMID:Electrolysis-induced myocardial dysfunction. A novel method for the study of free radical mediated tissue injury. 372 1

Male gerbils (Meronies ungulata) were treated with various doses of tryptophan and the changes in spontaneous motor activity determined. Tryptophan decreased behavior at a dose of 200 mg/kg. Cerebral ischemia was produced by bilateral carotid occlusion for 5 min. This duration of ischemia produced a large increase in activity at both 6 h and 24 h postischemia. Tryptophan (200 mg/kg) prevented the ischemia-induced increases in locomotor activity. These data suggest that dietary amino acids may play a role in determining the effects of ischemia.
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PMID:Acute tryptophan pretreatment protects against behavioral changes caused by cerebral ischemia. 372 76

Oxygen free radicals have recently been found to mediate cell injury after ischemia in the kidney. We sought to determine whether oxygen free radicals mediate damage in mercuric chloride (HgCl2)-induced acute renal failure, a toxic model of acute renal failure. Neither superoxide dismutase nor allopurinol, which scavenges or inhibits production of superoxide radical, respectively, provided protection against renal dysfunction after HgCl2. Similarly, the hydroxyl radical scavengers tryptophan, N-acetyl-tryptophan, and ascorbic acid were unable to protect against HgCl2. However, dimethylthiourea and dimethyl sulfoxide, both hydroxyl radical scavengers, were beneficial. Dimethylthiourea completely prevented the rise in plasma creatinine concentration after HgCL2. In control rats plasma creatinine concentration rose from 0.4 mg/dl to 3.2 +/- 0.8, 5.1 +/- 1.0, and 6.1 +/- 1.6 mg/dl at 24, 48, and 72 hours after HgCl2. Dimethylthiourea-treated rats had plasma creatinine concentration less than 0.5 mg/dl at all times. Furthermore, a mixture of HgCl2 and equimolar amounts of dimethylthiourea was less toxic than HgCl2 alone. Dimethyl sulfoxide attenuated the HgCl2-induced rise in creatinine concentration: 1.3 +/- 0.2, 3.2 +/- 0.3, and 3.1 +/- 0.2 mg/dl at 24, 48, and 72 hours after HgCl2. Measurement of kidney malondialdehyde content after HgCl2 provided no evidence for oxygen free radical-mediated lipid peroxidation. We conclude that there is no convincing role for oxygen free radicals in the pathogenesis of HgCl2-induced acute renal failure. The ability of dimethylthiourea and dimethyl sulfoxide to protect against HgCl2-induced renal dysfunction may be related to their ability to form complexes with Hg2+.
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PMID:Free radical scavengers in mercuric chloride-induced acute renal failure in the rat. 392 Mar 37

Experimental acute liver ischemia in pigs induces an increment in plasma free tryptophan with decreased total tryptophan. Brain tryptophan is elevated in all brain areas. A slight, but significant increase of brain serotonin is demonstrated in the striatum only, while 5-HIAA (5-hydroxyindoleacetic acid) is significantly lower in the hypothalamus. Other brain areas do not show significant changes in serotonin and 5-HIAA levels. Neither the high plasma free tryptophan levels, nor the decreased sum of neutral competitive amino acids are consistent with such an elevation of brain tryptophan. Hemodialysis was carried out with two different kinds of membranes: cuprophan (with an efficient removal of molecules up to molecular weight 1300) and AN 69 polyacrylonitrile (efficient removal up to 15,000). Ammonia and aminoacid clearance are similar for both membranes. After AN 69, plasmatic free tryptophan and brain tryptophan are lower than after liver devascularization, but still higher than normal. Serotonin significantly increases in the cortex, midbrain and hypothalamus without concomitant rise of 5-HIAA levels. After cuprophan hemodialysis, plasma total tryptophan is lower than in normal and even comatose animals, whereas free tryptophan is normal. Intracerebral tryptophan is similar to AN 69 dialysed animals, but in the hypothalamus it is similar to nondialysed animals. Brain serotonin levels are not modified. 5-HIAA decreases in the hypothalamus. This finding suggests that middle molecules (which are not cleared out with cuprophan hemodialysis) are involved in the intracerebral transfer of tryptophan and the metabolism of serotonin, mainly in the hypothalamus.
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PMID:Relationship between plasma and brain tryptophan in pigs during experimental hepatic coma before and after hemodialysis with selective membranes. 616 12

To clarify the changes of vasoactive amines associated with acute hepatic failure, ammonia, tryptophan, serotonin (5-HT) and histamine in the blood and liver were studied in dogs (n = 22) of each three group of acute hepatic ischemia; occlusion of hepatic artery (controls), occlusion of hepatic artery and portal vein (THI), and portocaval shunt with THI (PCS + THI). These biochemical changes were studied in each group at six time intervals: Preocclusion, 15 and 30 minutes postocclusion, and 30, 60 and 120 minutes after release of occlusion. A rapid rise of blood ammonia levels was observed in groups of THI and PCS + THI after occlusion. Blood 5-HT increased in postocclusion of both controls and THI. However, a decrease of 5-HT was observed in PCS + THI. Hepatic 5-HT also increased after occlusion in THI and PCS + THI as compared with a decrease in controls. Plasma histamine rose significantly in all groups after the occlusion. These data demonstrated that the changes of vasoactive amines in hepatic ischemia and/or splanchnic pooling appeared to affect microcirculation of the liver and play a role of pathogenesis of hepatic failure after hepatic ischemia.
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PMID:[Changes in serotonin and histamine levels in blood and liver after acute hepatic ischemia]. 650 48

To clarify the physiopathologic mechanism leading to a marked increase in aromatic amino acids (AAA) in acute hepatic failure (AHF), we compared two experimental models of AHF. Ten pigs were submitted to one-stage hepatic devascularization (group A); in eight other pigs total hepatectomy was performed (group B). The animals were maintained under constant glucose infusion. The mean survival time in group A was 23 +/- 2 hours; after hepatectomy it was 30 +/- 4 hours. Hepatic coma progressively deepened from 8 +/- 3 hours in Group A animals and was delayed until 17 +/- 5 hours in the anhepatic pigs. AAA, methionine, and tryptophan immediately increased markedly in pigs with liver ischemia. In group B animals, AAA showed a slight increase only 18 hours after hepatectomy, whereas there were no significant differences in methionine and tryptophan. The different amino acid patterns in the two groups of animals demonstrate that hepatocyte necrosis is a major source of plasma amino acids after liver devascularization. The slight increase in AAA after total hepatectomy suggests that a release mechanism from muscular mass is involved in the later stages of the experiment. The onset of coma is related to the increase in AAA rather than to alterations in blood ammonia that did not differ in either group of animals.
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PMID:Plasma amino acid patterns in experimental acute hepatic failure: comparison between hepatectomy and liver devascularization in pigs. 726 30

The effect of hydroxyethyl starch on pancreas preservation with cardioplegic histidine-tryptophan-ketoglutarate solution (HTK) was investigated. The study was performed using an in vitro reperfusion system of the porcine pancreas. During organ preservation pancreatic weight, arterial pressure, volume flow, and washout of amylase and lactate were quantified. Addition of hydroxyethyl starch did not affect arteriovenous volume flow or washout of amylase and lactate during protective perfusion after pancreas preparation. However, hydroxyethyl starch in HTK prevented an increase in pancreatic weight at the end of the protective perfusion (102.2 +/- 4.55% vs 127.8 +/- 4.62% in controls; p < 0.005) and after 24 h cold ischemia (72.9 +/- 3.91% vs. 83.5 +/- 3.49% in controls; p < 0.05). Hydroxyethyl starch did not affect postischemic organ quality assessed during reperfusion in a perfusion chamber by pancreatic vascular resistance, amylase and lactate release, insulin secretion, and oxygen consumption. We conclude that hydroxyethyl starch does not bring about any further improvement in immediate postischemic organ quality assessed in an in vitro reperfusion system.
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PMID:Hydroxyethyl starch does not improve pancreas preservation with HTK. 768 42

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