Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.2 (alanine aminotransferase)
 26,722 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have experienced a case of fulminant malignant hyperthermia who was a 63-year-old female weighing 44 kg. There was no particular past history nor family history. She underwent right mastoidectomy because of chronic otitis media. Her preoperative physical status was ASA I. She was premedicated with diazepam 10 mg and loxatigine 75 mg P.O. The induction was done with thiamylal 200 mg IV and fentanyl 0.1 mg IV followed by vecuronium 6 mg IV for endotracheal intubation. Intubation was easy and uneventful. Anesthesia was maintained with nitrous oxide 3 l.min-1, oxygen 3 l.min-1 and enflurane 2.0%. Seventy min after the induction of anesthesia, arterial blood gas analysis showed severe respiratory acidosis (PCO2: 63.2 mmHg, pH: 7.27) and it was improved with manual hyperventilation at that time. Pulse rate increased from 80 to 115 b.p.m. 20 minutes later. Then, the patient was ventilated with 100% oxygen, and anesthetic circuits and machine were exchanged for new units. Surgery was postponed. Muscle stiffness of upper extremities was observed and her temperature increased to a maximum of 38.9 degrees C. Surface cooling was started and dantrolene sodium 60 mg and furosemide 20 mg were given intravenously. The patient was transferred to the intensive care unit, and clinical signs improved gradually within one hour. Serum enzymes; CPK, LDH, GOT and GPT increased on the first postoperative day. On the 11 th postoperative day skeletal muscle biopsy was done under local anesthesia with 1% procaine and Ca-induced Ca-release rate test revealed positive for enflurane. This is the oldest patient of malignant hyperthermia reported in Japan.
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PMID:[A case report of a 63-year-old patient with malignant hyperthermia]. 161 62

Allyl alcohol injury to hepatocytes in the perfused liver is oxygen-dependent. It is not known if this injury involves direct action of allyl alcohol on hepatocytes or requires participation of other cell types (e.g., Kupffer cells) present in the liver. Accordingly, the action of allyl alcohol (100-500 microM) on isolated hepatocytes was studied using cells maintained at either 95 or 21% O2. Allyl alcohol toxicity, as indexed by trypan blue uptake, lactate dehydrogenase release, and ATP content, did not differ in the two groups of cells, suggesting that O2 dependency of allyl alcohol toxicity involves other cell types. Administration of allyl alcohol (30 or 40 mg/kg, ip) to rats caused extensive hepatic necrosis localized primarily to periportal regions. To test the involvement of Kupffer cells in the genesis of this injury, male rats (200-350 g) were treated with gadolinium chloride (GdCl3, 10 mg/kg, iv) which diminishes Kupffer cell function and number. The extent of hepatic damage assessed by light microscopy and serum enzymes, aspartate aminotransferase and alanine aminotransferase, was markedly attenuated by pretreatment of rats with GdCl3 24 hr prior to allyl alcohol injection. Thus, O2-dependent hepatic necrosis caused by allyl alcohol involves the presence of Kupffer cells. Since GdCl3 did not prevent toxicity in the perfused liver, circulating blood elements may also contribute to injury of the liver by allyl alcohol in vivo.
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PMID:Involvement of nonparenchymal cells in oxygen-dependent hepatic injury by allyl alcohol. 163 94

In order to elucidate the role of mitochondrial dysfunction in paracetamol-induced hepatotoxicity, the effects of paracetamol on the oxygen consumption and ATP content of the isolated perfused rat liver were correlated with parameters of hepatic viability and hepatotoxicity. Paracetamol at 5 g/L reduced the oxygen consumption of the livers by about 80% and hepatic ATP content by 96%. Hepatotoxicity was evident from the nearly complete interruption of bile secretion, a marked release of enzymes [glutamate-pyruvate transaminase (GPT), lactate dehydrogenase (LDH)] in the perfusate, a depletion of hepatic glutathione and an accumulation of calcium in the liver. Paracetamol-induced hepatotoxicity could be prevented completely by using livers from non-fasted rats as well as by addition of fructose to the perfusate of livers from fasted animals. Both treatments resulted in an increased energy supply from anaerobic glycolysis as evidenced by a large release of lactate and pyruvate into the perfusate, but did not inhibit paracetamol-induced decline of oxygen consumption. The decrease in hepatic oxygen consumption depended on the dose of paracetamol and occurred first at a concentration of 0.2 g/L (-10%). LDH and GPT release, on the other hand, was elevated at 2 and 5 g/L and calcium accumulation occurred at 5 g/L paracetamol only. Inhibition of mixed-function oxidases by dithiocarb did not prevent the decrease in oxygen consumption and the resulting hepatic injury induced by paracetamol. The oral administration of the high dose of 5 g/kg paracetamol in vivo to rats exerted strong hepatotoxicity but produced maximal serum levels of 800 mg/L paracetamol only and did not decrease hepatic oxygen consumption as measured in vitro. Our results show that in the isolated perfused rat liver in vitro, only high concentrations of paracetamol can produce "chemical hypoxia" by attacking mitochondria so as to cause hepatic injury. Such high concentrations of paracetamol are not attained in vivo, however. "Chemical hypoxia", thus, seems not to be relevant to the well-known hepatotoxic action of paracetamol.
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PMID:The toxicological relevance of paracetamol-induced inhibition of hepatic respiration and ATP depletion. 163 30

The hemodynamics during hemodilution occurred after hepatectomy for hepatocellular carcinoma with liver cirrhosis and its influences on the liver functions were studied. The hematocrit value gradually decreased about 10% until the 4th postoperative day owing to hemodilution after hepatectomy. While anemia progressed, cardiac index inversely increased. Under such a condition, oxygen consumption was maintained so that acidosis did not develop. Arterial blood ketone body ratio was also kept within a normal range except for a case whose hematocrit value decreased to 17.1%. Although the escaped hepatic enzymes such as GOT and GPT increased in the serum after hepatectomy, hemodilution was not responsible for their increase. While total bilirubin increased in the severe hemodiluted group, the increase was not due to hemodilution but caused by blood transfusion. The protein synthesis of the liver measured by rapid turnover protein levels in plasma was depressed after surgery, and this depression prolonged to the 14th postoperative day in the group whose hematocrit value decreased below 20%. These results suggest that it is better to keep hemodynamics without blood transfusion unless the hematocrit value decrease below 20%, and also better to maintain the hematocrit above 20% for liver regeneration after hepatectomy.
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PMID:[The hemodynamics during hemodilution and its influence on the liver functions after hepatectomy for hepatocellular carcinoma with liver cirrhosis]. 165 85

To ascertain modifications in the activation products derived from oxygen free radicals in patients with chronic pancreatic and extra-pancreatic diseases, lipid peroxide activity was measured in the sera of 40 control subjects, 28 patients with pancreatic cancer, 49 with chronic pancreatitis, and 53 with extra-pancreatic diseases. In 142 of the subjects, elastase 1, amylase, and pancreatic isoamylase activities were also determined. Increased lipid peroxide activities were found in some patients with both chronic pancreatic and extra-pancreatic diseases. Patients with chronic pancreatitis studied during relapse had higher activities of lipid peroxides than those without active disease. No difference was found between the values in patients with pancreatic cancer with liver metastases and those without. Correlations were found between lipid peroxides and both amylase and pancreatic isoamylase activities; no correlation was detected between lipid peroxides and elastase 1. In benign biliary tract disease a correlation was detected between lipid peroxides and alanine aminotransferase and alkaline phosphatase activities. In all patients, however, a correlation was found between alkaline phosphatase and lipid peroxide activities. It is concluded that activation of oxygen derived free radicals occurs in chronic pancreatic as well as in extra-pancreatic disease; it seems to reflect the degree of inflammation.
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PMID:Oxygen derived free radicals in patients with chronic pancreatic and other digestive diseases. 169 29

The effects of lipid peroxide on protein catabolism after severe burn injury are studied. Burned rats (30% TBSA III) were divided randomly into two groups: group A (N = 120) received I. M. injection of bovine serum albumin (BSA) served as control; group B (N = 146), the treated group, receiving I. M. injection of superoxide dismutase (SOD) and catalase (CAT). It was found that in PBD 5, 7, 9, 11, 3-Methyl histidine (3-Mehis) excretion was significantly lower in group B than in group A (P less than 0.01); and that in group B cumulative urinary nitrogen (UN) excretion and cumulative nitrogen balance in the eleven-day period after burns were significantly lower than in group A (P less than 0.01); On PBD 12, serum GOT and GPT were higher significantly in group A than that in group B (P less than 0.05). Besides, in group B the total nitrogen content in liver and gastrocnemius muscle on PBD 12 was significantly higher than in group A (P less than 0.05). These findings suggest that a certain relationship exists between lipoperoxide and increased protein catabolism after severe burns. SOD and CAT, the oxygen radical scavengers, can reduce protein catabolism to a certain extent, and protect the hepatic function from being injured.
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PMID:[Effect of lipoperoxide on catabolism of protein in burns in rats]. 181 69

The influence of hepatic arterial obstruction on the hepatic circulation and tissue metabolism was studied between animals with and without partial arterialization of the portal vein. Mongrel dogs were divided into these groups: a group in which the collaterals to the liver were obstructed and the hepatic artery was dissected (hepatic artery ligated group); two groups in which an extracorporeal femoral artery-portal vein shunt was produced, and blood was sent by a Biopump at a rate of 100 or 200 ml/min (100 ml/min and 200 ml/min portal arterialized groups). The hepatic artery ligated group showed CO2 accumulation and acidosis in hepatic venous blood, reduction of oxygen supply, increase of oxygen consumption and marked increase of GOT and GPT. In the portal arterialized groups, sufficient oxygenation of portal blood was noted, and the oxygen demand and supply and tissue metabolism were kept approximately normal. The optimum flow rate for partial arterialization of the portal vein seemed to be 100 ml/min. At the flow rate of 200 ml/min, the original portal blood was reduced, leading to portal hypertension and increase of GOT and GPT. These results indicate that partial arterialization of the portal vein effectively preserves the liver function during the operation and in the early period after dissection of the hepatic artery.
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PMID:[Experimental study of partial arterialization of the portal vein on the dearterialized liver]. 188 74

Cellular damage of various organs by ischemia following reperfusion is assumed to be at least in part due to lipid peroxidation in biomembranes, and oxygen-derived free radicals play a major role. The level of lipid peroxides in liver tissue increased during 90-min ischemia. When reflow of hepatic blood was allowed, a greater increase in the lipid peroxides was observed. Similar increases were obtained in several serum markers (GOT, GPT and LDH) during the period of ischemia or ischemia-reperfusion. In addition, levels of cytochrome p-450 and NADPH cyt. c reductase activity decreased in proportion to the decrease in microsomal proteins during ischemia or ischemia-reperfusion. On the other hand, superoxide dismutase in blood was significantly increased by ischemia-reperfusion. Rats died within 2 days after liver ischemia of 90 min, while all animals subjected to 30-min ischemia survived. Histopathological examinations indicated that extensive coagulation with erythrocytes occurred and the extent was dependent on the time of ischemia. The liver injury by ischemia-reperfusion could be a useful experimental model for studying liver injury induced by free radicals, for developing hepatoprotective drugs, or for investigating liver transplantation.
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PMID:[An injury of the liver caused by ischemia-reperfusion in rat liver]. 190 28

Under certain circumstances, segmented neutrophils (PMNs) injure extrahepatic tissue by releasing toxic oxygen species and degradative enzymes. The authors used an isolated, perfused rat liver preparation to determine whether PMNs might injure the liver. Livers from fasted rats were perfused with Krebs-Ringer bicarbonate buffer (pH 7.4) containing 3% bovine serum albumin (BSA) in a recirculating system. Rat peritoneal PMNs (4 x 10(8] or vehicle (Hank's balanced salt solution [HBSS], pH 7.35) were added, and liver injury was assessed 90 minutes later by release of alanine aminotransferase (ALT) into the perfusion medium and histopathologic analysis of liver sections. Perfusion of livers receiving only HBSS for 90 minutes resulted in a small increase in ALT activity in the perfusion medium but did not significantly alter histologic features of liver sections. Addition of unstimulated PMNs did not increase further the ALT activity and, with the exception of vascular neutrophilia, did not significantly change the histomorphology compared with controls. When PMNs activated with a combination of phorbol myristate acetate (PMA, 31 ng/ml) and lithocholate (100 mumol/l [micromolar]) were added to the perfusion system, however, livers released greater amounts of ALT than those perfused with PMA, lithocholate, and HBSS. Activated PMNs caused a transient reduction in flow of perfusion medium that lasted approximately 5 to 15 minutes. Liver sections had multifocal to coalescing foci of moderate to severe, acute hepatocellular necrosis associated with the areas of intense sinusoidal neutrophilia. In addition a second type of lesion was observed and was characterized by triangular foci of necrosis located adjacent to periportal regions of sinusoids or portal veins containing neutrophilic thrombi. These lesions were void of PMNs and were consistent with infarcts. A combination of superoxide dismutase and catalase added to the perfusion medium (500 U/ml each) prevented the elevation in ALT activity but not the transient reduction in flow. These results indicate that activated PMNs may cause liver injury by an oxygen radical-dependent mechanism. It is unclear whether PMN-derived oxygen radicals, hepatocellular-derived oxygen species resulting from reduced tissue perfusion and reperfusion, or both are involved in the pathogenesis.
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PMID:Activated neutrophils injure the isolated, perfused rat liver by an oxygen radical-dependent mechanism. 195 24

Oxygen free radicals have been implicated as mediators of ischemia/reperfusion injury in a variety of organs. We investigated the role of oxidative injury and endogenous hepatic glutathione (GSH) in liver cell injury associated with complete hepatic ischemia and reperfusion. Forty-five minutes of complete hepatic ischemia followed by reperfusion caused an increase in serum GPT and a fall in hepatic GSH but no increase in hepatic lipid peroxidation products. Chemical depletion of hepatic GSH with diethyl maleate did not cause hepatocellular injury but augmented hepatic ischemia/reperfusion-induced SGPT release and promoted lipid peroxidation. Pretreatment with the selective, membrane-permeable oxygen radical scavenger dimethyl sulfoxide protected against the ischemia/reperfusion-induced drop in hepatic GSH but did not reduce SGPT release in normal rats. In rats sensitized to oxidative injury by depletion of endogenous GSH with diethyl maleate the oxygen radical scavenger protected against ischemia/reperfusion-induced lipid peroxidation and reduced the release of SGPT. These findings suggest that the rich hepatic supply with endogenous GSH has a crucial role in the protection against oxygen radical injury following short periods of total hepatic ischemia. Oxygen radical injury only occurs after depletion of these endogenous GSH stores.
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PMID:Oxygen free radicals and glutathione in hepatic ischemia/reperfusion injury. 202 Jan 91


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