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)

Carbohydrate intolerance is common in patients with cirrhosis. The aim of the present study was to determine whether the beneficial metabolic effects of low glycemic index diets observed in noncirrhotic diabetics also occurred in patients with cirrhosis. Therefore, for one day, five patients with cirrhosis were fed diets in which low glycemic index foods were substituted, replacing those which produced higher blood glucose rises. Reduction in the estimated glycemic impact of the diet by approximately 30% reduced the mean incremental blood glucose level over the day by 40 +/- 5% (p less than 0.001). Measurement at breakfast of amino acid, insulin, and gastric inhibitory polypeptide profiles confirmed a reduction of similar magnitude. No change was seen in pancreatic glucagon, whereas enteroglucagon levels tended to be higher. In view of these findings and the possible long-term benefits of chronic reduction of hyperinsulinism and alteration in amino acid metabolism, this approach to dietary management of cirrhosis warrants further consideration.
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PMID:Low glycemic index foods and reduced glucose, amino acid, and endocrine responses in cirrhosis. 250 Aug 46

The change of humoral substances in the blood of cirrhotic rat was studied at different stages of development, together with their effects on the portal hemodynamics. The profiles of humoral substances and hemodynamics in two different cirrhotic rat models, as well as the changes of portal hemodynamics in the normal rats after perfusion with the arterial blood from cirrhotic rats were also investigated. It was found that: during the development of cirrhosis, glucagon increased markedly at all stages, histamine and vasoactive intestinal polypeptide (VIP) increased at early stage only, while serotonin (5-HT) and somatostatin(SS) increased at middle and advanced stages. In the CCl4 induced cirrhosis, glucagon was the main humoral substance, whereas in the thioacetamide (TAA) induced cirrhosis, histamine and 5-HT were mainly elevated. The portal hemodynamics altered differently in different stages during the development of cirrhosis and in the two different cirrhotic rat models. The perfusion with the arterial blood from cirrhotic rats caused an increase of portal venous pressure and portal venous flow in normal rats.
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PMID:[Changes in humoral substances in induced cirrhosis and their effects on portal hemodynamics]. 257 72

In healthy subjects intravenous glucagon administration induces a prompt (at 1 h) fall in serum T3 concentration and a later (at 4 h) rise in biologically inactive rT3. Since high levels of plasma glucagon have frequently been found in some patients with severe chronic illnesses, together with an anomalous thyroid condition (low serum T3, high serum rT3), it has been supposed that hyperglucagonemia could play a pathogenetic role in causing selective T3 deficiency. In the present study fasting plasma glucagon concentration was measured in 48 patients with low T3 and severe nonthyroidal illnesses: hepatic cirrhosis in 16 cases, chronic non-A non-B hepatitis in 4 cases, uncontrolled type II diabetes mellitus in 5 cases, renal failure in 12 cases, congestive heart failure in 5 cases, tumor in 16 cases. In comparison with a group of 21 healthy controls fasting plasma glucagon concentration was significantly higher in the patients (198.75 +/- 13.20 pg/ml vs. 127 +/- 6.80 pg/ml; p less than 0.001). However, only 29 patients (60.4%) had elevated plasma glucagon levels, whereas 19 (39.5%) had abnormal plasma glucagon levels. Furthermore, no significant difference was found between the thyroid hormone pattern of the patients with hyperglucagonemia and of the patients with normal glucagonemia. On the other hand, a significant correlation between plasma glucagon concentrations and serum T3 and rT3 concentrations was not found. All these findings indicate that in patients with severe chronic illnesses the fall in circulating T3 cannot be due to hyperglucagonemia only which, therefore, might simply be a contributory factor together with other as yet unidentified disorders.
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PMID:[Role of high blood glucagon in the reduction of serum levels of triiodothyronine in severe non-thyroid diseases]. 263 98

The present study investigated whether or not, in addition to the oral glucose tolerance test, oral alanine loading was a useful diagnostic tool for hormonal and metabolic diseases. Fifty g of L-alanine was administered orally in 14 normal, 12 diabetic, and 8 liver cirrhotic subjects. The influence of oral alanine loading on hormones and metabolites was compared with the results of 100 g oral glucose loading. The results obtained were as follows: 1) In the normal subjects and cirrhotics, lactate and pyruvate concentrations gradually increased with time and reached their peak levels at 60 min, whereas they remained unchanged throughout the course in the diabetic group at glucose loading. 2) Alanine administration accelerated ureogenesis but did not affect blood glucose levels. 3) In both glucose and L-alanine administration, free fatty acid, glycerol and ketone body levels declined nonspecifically in all groups. 4) Serum glucagon levels during L-alanine loading increased in all groups, especially in liver cirrhotics. 5) L-alanine was a potent stimulus for insulin secretion in diabetics, while no insulin release during glucose loading was observed. 6) The molar ratio of insulin levels (during glucose loading)/glucagon levels (during L-alanine loading) was a good indicator of systemic glucose homeostasis from the hormonal aspect. It is suggested that, in addition to the oral glucose tolerance test, the oral administration of L-alanine can be a useful tool for the diagnosis of the status in diabetes mellitus and cirrhosis.
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PMID:Pancreatic alpha- and beta-cell function and metabolic changes during oral L-alanine and glucose administration: comparative studies between normal, diabetic and cirrhotic subjects. 267 46

The authors report preliminary data on the behavior of some lipid fractions in cirrhosis of the liver and correlate them with the changes in the insulin, glucagon and C-peptide levels. Elevated FFA (Free Fatty Acids) and normal cholesterol, triglyceride and total lipid values indicate a prevalent insulin induced effect and a reduction of liver metabolism of these fractions. This hypothesis is supported by the fact that L-carnitine, which reestablishes the carnitine-dependent intracellular transport system, reduces the levels of all the lipid fractions studied. The normal C-peptide values in these patients with liver cirrhosis show that hyperinsulinemia is caused by impaired metabolism of this hormone and not by hyperincretion. This hyperinsulinemia seems to react positively to the improvement of the intracellular transport systems. A fall in the hyperglucagonemia follows the decreased hyperinsulinemia leading to a hormone balance with lower values and a consequent reduction of the hormonal stimuli on the lipid metabolism. The possibility of administering drugs, which can act on the metabolic pathways responsible for the high FFA plasma levels, which seem to play a role in the physiopathology of encephalopathies and hepatic coma is clinically interesting.
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PMID:[Plasma lipids, insulin, C-peptide, and glucagon levels in cirrhosis: personal observations]. 267 5

Hyperinsulinemia and impaired glucose tolerance are associated with liver cirrhosis. To investigate whether insulin-degrading activity in liver tissue plays a role in hyperinsulinemia, we assayed this activity in biopsy tissue from healthy and cirrhotic subjects. There was no difference in insulin degradation between these two groups. Also glucagon-degrading activity in liver tissue, which is catalyzed by the same enzyme as insulin-degrading activity, did not differ between the two groups studied. Therefore, insulin-degrading activity does not appear to be involved in the hyperinsulinemia that occurs in liver cirrhosis. The study provides indirect evidence that hyperinsulinemia and impaired glucose metabolism in liver cirrhosis are due to different mechanisms (receptorial and post-receptorial defects, and altered feedback inhibition of insulin secretion).
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PMID:Insulin and glucagon degradation in liver are not affected by hepatic cirrhosis. 268 Jan 68

Diet-induced thermogenesis after ingestion of a mixed meal was investigated in eight patients with documented liver cirrhosis and in eight age- and sex-matched healthy controls. Respiratory gas exchange was measured continuously for one hour in the basal state and for three hours after ingestion of a mixed liquid meal, consisting of 17% kJ protein, 28% kJ lipids and 55% kJ carbohydrates and dispensed to correspond to 60% of the individually computed energy expenditure. Arterial substrate and hormone concentrations were determined before and at timed intervals for three hours after the meal. Urine was collected for determination of nitrogen excretion. The patients' oxygen uptake, energy expenditure and respiratory quotient were similar to those of the controls in the basal state. After the meal, pulmonary oxygen uptake and energy expenditure rose markedly in both groups during the first hour and were subsequently stable. The average increase in oxygen uptake above basal during the whole study period was 21.2 +/- 1.8% and 22.3 +/- 1.2% (NS) in patients and controls, respectively. The corresponding increase in energy expenditure was 24.8 +/- 2.0% in the patients and 24.9 +/- 1.4% in the controls (NS). The respiratory quotient was elevated throughout the postprandial period in both groups but the quotient was significantly higher in the patients (P less than 0.05-0.001), suggesting a greater proportion of carbohydrate oxidation. The basal arterial concentrations of insulin and glucagon were significantly higher in the patients. After the meal the insulin level increased 10- to 20-fold in both groups. Glucose concentration rose significantly in both groups to a maximum of 8.82 +/- 1.00 and 8.03 +/- 0.95 mmol/l in patients and controls, respectively, at 60 min after the meal. This was accompanied by a fall in the levels of glycerol and ketone bodies in both groups, indicating decreased lipolysis. It is concluded that both the basal energy expenditure and the thermogenic response to a mixed meal are similar in patients with liver cirrhosis and in healthy controls. The patients' carbohydrate oxidation rose to a greater extent after the meal, probably as a consequence of excessive increases in insulin concentration, demonstrating that insulin resistance in these patients may be compensated for by postprandial hyperinsulinaemia.
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PMID:Diet-induced thermogenesis in patients with liver cirrhosis. 272 Nov 26

To elucidate the relationship between the haemodynamic changes and glucagon in cirrhosis, we infused physiologic and supraphysiologic doses of this hormone in conscious rats with portal hypertension due to biliary cirrhosis. Cardiac output and splanchnic organ blood flows were measured by the radioactive microsphere method before and 30 min after glucagon infusion at doses of 2, 5 and 10 ng/min. Serum glucagon increased from a basal level of 92 +/- 17 pg/ml (mean +/- S.E.) to 399 +/- 89, 1151 +/- 136 and 2064 +/- 328 pg/ml, respectively, in sham-operated rats, and from 743 +/- 75 pg/ml to 1497 +/- 197, 1583 +/- 356 and 2957 +/- 649 pg/ml, respectively, in cirrhotic animals at 2, 5 and 10 ng/min doses. In both groups, cardiac output did not change after glucagon infusion at 2 and 5 ng/min doses, suggesting that factors other than glucagon are primarily responsible for the systemic hyperdynamic circulation in cirrhosis. Portal tributary blood flow increased significantly after glucagon infusion in sham-operated rats by 34 and 65% at doses of 5 ng/ml and 10 ng/ml, respectively, and in cirrhotic rats by 29% at a dose of 10 ng/ml. However, portal tributary blood flow did not change after glucagon infusion at the physiologic dose of 2 ng/min. This study shows that glucagon infused at a physiologic dose does not increase splanchnic blood flow, although it increases portal tributary blood flow at supraphysiologic doses. The discrepancy between blood glucagon levels and splanchnic haemodynamic responses suggests that glucagon plays only a minor role and that other factors are primarily responsible for the hyperdynamic state of the splanchnic circulation in rats with biliary cirrhosis.
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PMID:Effects of glucagon on systemic and splanchnic circulation in conscious rats with biliary cirrhosis. 276 97

G30TBA is the total serum bile acid concentration obtained thirty minutes after injection of glucagon in the UDCA.GLUCAGON tolerance test. We have previously reported the usefulness of G30TBA in evaluating liver function. In this paper, changes in the portal blood flow in response to glucagon administration are measured and the relationship between those changes and G30TBA studied. We used an ultrasonic duplex system composed of a B-mode scanner and doppler flow meter of measure portal blood flow after injection of glucagon in thirty seven patients with chronic liver diseases. The results are as follows: The increase in portal blood flow by exogenous glucagon in liver cirrhosis is statistically significantly lower than that in chronic hepatitis. G30TBA in the good-response-to-glucagon group is statistically significantly lower than that in the poor-response group. These results suggest that the effect of glucagon on portal blood flow significantly influences the serum bile acid concentration in the UDCA.GLUCAGON tolerance test.
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PMID:[Changes in portal blood flow by intravenous administration of glucagon--the relationship between those changes and the total serum bile acid values in UDCA.GLUCAGON tolerance test]. 281 Aug 53

Fourteen normal controls, eleven patients with non-alcoholic cirrhosis, twenty-nine with hepatocellular carcinoma (HCC) and six with HCC and hypoglycemia were studied. The tests performed include iv glucose tolerance test (25 g) and glucagon challenge test (2 mg). In cirrhosis, glucose intolerance and insulin resistance were demonstrated. The fasting hyperinsulinemia in cirrhosis is the result of decreased degradation as shown by the normal fasting C-peptide. The increased insulin responses to glucose, despite a normal C-peptide response, further supports the importance of impaired degradation in the pathogenesis of hyperinsulinemia after challenge. Despite a strong etiological association between cirrhosis and HCC, patients with HCC do not have significant hyperinsulinemia or glucose intolerance. This provides metabolic evidence to support the clinico-pathological observation that HCC occurred when cirrhosis was not advanced or in a precirrhotic stage. In HCC patients with clinically overt hypoglycemia, the fasting glucose, insulin and C-peptide were very low. The C-peptide responses to glucose and glucagon challenges were suppressed despite pharmacologic stimulation. This can be explained by the suppression of insulin secretion by a circulating substance secreted by hepatoma. The results support the pathogenetic importance of insulin-like activities recently detected in HCC patients with hypoglycemia.
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PMID:C-peptide in non-alcoholic cirrhosis and hepatocellular carcinoma. 284 76

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