UMLS:C0023890 - FACTA Search

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Query: UMLS:C0023890 (cirrhosis)
42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It is proposed that hyperammonaemia in liver cirrhosis or after portacaval shunt contributes to plasma neutral aminoacid imbalance and to increased activity of the blood-brain neutral amino-acid transport system. Plasma neutral aminoacid concentrations are deranged, partly, but not completely, because ammonia stimulates glucagon secretion; a high rate of gluconeogenesis and hyperinsulinaemia follow. Brain uptake of neutral aminoacids rises because ammonia stimulates brain-glutamine synthesis, which results in rapid exchange of brain glutamine for plasma neutral aminoacids. Hyperammonaemia therefore contributes to encephalopathy indirectly, by raising the brain concentration of neutral aminoacids which after neurotransmitter metabolism, rather than directly, by toxic effects on neuronal metabolism.
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PMID:Hyperammonaemia, plasma aminoacid imbalance, and blood-brain aminoacid transport: a unified theory of portal-systemic encephalopathy. 9 Aug 64

The change in plasma cyclic adenosine-3', 5'-monophosphate (AMP) was measured after intravenous injection of 1 mg of glucagon in 10 normal subjects and 30 patients with various forms of liver disease. Patients with cirrhosis and those with intrahepatic cholestasis responded normally but in patients with extrahepatic obstruction the plasma cyclic AMP response was considerably increased. Six of the eight patients with cirrhosis and a surgically created portacaval shunt had very reduced responses. This test may prove to be diagnostically important, particularly in differentiating surgical from non-surgical jaundice.
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PMID:Plasma cyclic adenosine-3', 5'-monophosphate response to glucagon in patients with liver disease. 17 99

Glucagon was tested for its effect on plasma adenosine 3',5'-cyclic monophosphate (cyclic AMP), insulin, and glucose in healthy subjects and in patients with advanced cirrhosis of the liver. In the normal subjects, intravenous infusion of glucagon caused a significant increase in plasma cyclic AMP, glucose, and insulin. In advanced cirrhotics, plasma cyclic AMP, glucose, and insulin did not increase. Adenylate cyclase concentration was measured in liver tissue from end stage cirrhotic patients and from brain-dead organ donors whose cardiovascular function was maintained in a stable state. Basal and total adenylate cyclase concentration were not different in the two groups. Adenylate cyclase from the livers of advanced cirrhotics was, however, significantly less responsive to glucagon stimulation than was that from donor livers. Hepatocytes in advanced cirrhosis have abnormal metabolic behavior characterized by abnormal adenylate cyclase-cyclic AMP response to hormonal stimulation.
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PMID:Cyclic AMP metabolism and adenylate cyclase concentration in patients with advanced hepatic cirrhosis. 21 45

The normal physiological role of glucagon is in controlling hepatic glucose output. Glucagon subserves the role of homeostasis by maintaining plasma glucose and of a stress hormone by producing hyperglycaemia. While control of glucagon release by circulating metabolites and also other hormones is clearly important, it seems likely that the nervous system exerts an over-riding influence. The parasympathetic nervous system maintains homeostasis and the sympathetic acts in stress. Glucagon levels are found to be high in cirrhosis and also after acute hepatic failure. It is likely that these changes in glucagon concentration are secondary to metabolic abnormalities. While some glucagon is cleared by the liver, a similar clearance is seen by many other tissues and it is not likely that the elevation of glucagon seen in liver failure is due solely to a gross deficiency of glucagon clearance. No liver abnormality is seen in the glucagonoma syndrome, where glucagon concentration are chronically high, or in patients who have had a total pancreatectomy, where plasma glucagon is undetectably low. It thus seems unlikely that liver mass is importantly controlled by glucagon.
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PMID:Signals for glucagon secretion. 24 99

Hypergastrinemia and hyperglucagonemia follow portacaval shunt (PCS) or cirrhosis in man and experimental animals. The cause is unknown although portal diversion and hepatic dysfunction are suggested. In these studies transhepatic techniques were used to define the hepatic handling of basal and arginine-stimulated gastrin and glucagon levels in sham-operated and portacaval-shunted pigs and in a group of pair-fed sham-operated pigs. After PCS, basal gastrin levels were lower than those in sham-operated animals but were also lower in the pair-fed group, suggesting that the change resulted from partial starvation. Arginine-stimulation caused a rise in hepatic venous levels in PCS and in pair-fed pigs and in portal venous levels in sham-operated pigs. These data also suggested a response to diminished intake in PCS pigs. There was an immediate transitory rise in portal immunoreactive glucagon (Unger 30K) after PCS and a subsequent rise from the 4th postoperative day in all circulations. Arginine stimulation caused in sham-operated and PCS pigs a biphasic rise in the portal circulation and a later rise in the arterial circulation in PCS pigs. These data suggest that the effect of PCS upon gastrin levels is associated with the impaired appetite while the effect upon glucagon is the result of diversion past the liver.
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PMID:Transhepatic hormone levels in the portacaval shunted pig--the effects of arginine upon gastrin and glucagon release. 29 Feb 69

In the plasma of healthy subjects, 4 fractions of immunoreactive glucagon are found. The first has a molecular weight of about 160000, the second of 9000, the third 3500 and the fourth about 2000. The third probably corresponds to the intact hormone glucagon. In cirrhosis of the liver and diabetes mellitus, a statistically significant rise in the third fraction has been found. In patients with tumors of the pancreatic A-cells, in addition to the third fraction the second in particular was also increased: it may be a precursor of the glucagon molecule. In chronic renal insufficiency, fractions 2 and 3 were as markedly increased as in glucagonoma, which suggests a role for the kidney in the decomposition of glucagon. The pathophysiologic significance of the four immunoreactive fractions of glucagon cannot yet be assessed with certainty.
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PMID:[Circulating types of human glucagon (author's transl)]. 30 29

To investigate the development of diabetes mellitus in patients with thalassemia major, plasma glucose and immunoreactive insulin (IRI) levels following oral glucose and intravenous tolbutamide and glucose disappearance rates following intravenous insulin were measured in 10 patients before and during five years on a high transfusion program (HTP). Plasma immunoreactive glucagon (IRG) levels following oral glucose, intravenous insulin, and arginine were measured during the sixth year. Serial percutaneous liver biopsies were performed on seven patients. The oral glucose tolerance tests (OGAT) and mean peak IRI levels were normal in nine of 10 patients before HTP. After HTP was begun a progressive deterioration of OGTT occurred despite normal IRI levels. Following tolbutamide, the mean per cent fall in plasma glucose in the patients before HTP was significantly less than in controls (p less than 0.01) and similar to that of controls during five years of HTP in spite of higher than normal peak IRI levels. Of seven survivors after six years of HTP, three had normal OGTT and four had chemical diabetes; mean peak IRI levels were normal, but fasting IRG levels were significantly higher than in controls (p less than 0.05). In all seven patients, plasma IRG failed to increase following insulin-induced hypoglycemia and was significantly higher than in controls after arginine (p less than 0.01); after oral glucose, plasma IRG fell significantly below that of fasting only in the patients with chemical diabetes (p less than 0.03). Following intravenous insulin, the mean per cent fall in glucose before and during HTP was significantly less than in controls (p less than 0.01). Hemosiderosis and cirrhosis were present in all biopsied patients. Four patients died; two had chemical and two had nonketotic insulin-dependent diabetes. These data suggest that diabetes mellitus occurs frequently in patients with thalassemia on HTP and that insulin resistance and hyperglucagonemia, possibly due to cirrhosis, are important etiologic factors.
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PMID:Carbohydrate metabolism and pancreatic islet-cell function in thalassemia major. 32 76

To clarify further the etiology of the carbohydrate intolerance in idiopathic hemochromatosis, we investigated the glucose, insulin, C-peptide, and glucagon responses to arginine (0.5 g/kg) infused during 30 min in lean normal subjects; in insulin-requiring subjects with hemochromatosis, genetic diabetes, and total pancreatectomy; and in nondiabetic cirrhotic subjects without portosystemic shunting. Serum insulin, C-peptide, and glucagon responses (30K antibody) were determined by RIA, and glucose level was determined by a glucose oxidase technique. Hemochromatotic and genetic diabetic subjects had similar basal glucose (157 +/- 25 vs. 168 +/- 40 mg/dl) and C-peptide (0.73 +/- 0.42 vs. 0.65 +/- 0.22 ng/ml) values, with subnormal C-peptide peak responses to stimulation (1.05 +/- 0.38 and 1.40 +/- 0.83 vs. 3.95 +/- 0.4 ng/ml in normals; P less than 0.05). No glucagon or C-peptide response to arginine was seen in any pancreatectomized subject. Similar but excessive glucagon levels were present in hemochromatosis, diabetes, and cirrhosis under basal conditions (166 +/- 24, 232 +/- 111, and 263 +/- 116 vs. 76 +/- 15 pg/ml; P less than 0.05) and after arginine stimulation (782 +/- 80, 834 +/- 123, and 902 +/- 275 vs. 489 +/- 81 pg/ml; P less than 0.05) when compared with normals. The excessive glucagon levels found in hemochromatosis, diabetes mellitus, and cirrhosis contrast to the absent response in pancreatectomized subjects and indicate that generalized islet cell destruction is not the major factor in diabetic hemochromatotic subjects.
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PMID:Pancreatic alpha-cell function in diabetic hemochromatotic subjects. 38 22

Increased glucagon (IRG) levels have been documented in liver cirrhosis, particularly associated with portal-systemic shunting. In spite of increased insulin (IRI) levels, IRI/IRG are reduced. This alteration has been proposed to have a pathogenic role in plasma aminoacid imbalance which seems to account for hepatic encephalopathy. We studied IRG and IRI/IRG in 13 controls and in 3 groups of cirrhotics, divided on the basis of their mental state. Glucagon was determined by means of 30 K Unger's antibody; insulin by a double antibody technique. Results are expressed in the table as means +/- SEM. (Formula: see text)A progressive increase in IRG secretion is present in cirrhotics and correlates with the mental state; IRI/IRG is not altered in cirrhosis until neurological distrubances are present. A relative fall in IRI which can no more balance the increasing IRG values characterizes hepatic encephalopathy.
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PMID:The role of insulin and glucagon in the plasma aminoacid imbalance of chronic hepatic encephalopathy. 38 61

Plasma immunoreactive glucagon (IRG) was examined in volunteers with biopsy-proven cirrhosis of the liver after recovery from surgical portal--caval anastomosis. A wide range of increased total plasma IRG concentrations was found after overnight fast in groups of cirrhotic subjects with and without fasting hyperglycemia. Gel filtration chromatography of plasma showed a major component in the 3500-mol wt fraction in all cases so studied. Administration of glucose i.v. caused rapid suppression of total plasma IRG in normoglycemic and non-insulin-dependent hyperglycemic cirrhotic subjects. After administration of oral glucose, total plasma IRG was suppressed rapidly in normoglycemic cirrhotic subjects, while non-insulin-dependent hyperglycemic cirrhotic subjects exhibited delayed but prolonged suppression. Chromatography of selected plasma with glucose-suppressed total IRG showed a major decrease in the 3500-mol wt component in every case. Exaggerated increments of plasma gastric inhibitory polypeptide were demonstrable in both groups of cirrhotic individuals after administration of oral glucose, and it is speculated that this peptide may contribute to stimulation of glucagon secretion in liver disease associated with insulin deficiency.
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PMID:Hyperglucagonemia in liver cirrhosis with portal-systemic venous anastomoses: responses of plasma glucagon and gastric inhibitory polypeptide to oral or intravenous glucose in cirrhotics with normal or elevated fasting plasma glucose levels. 44 82

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