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)

A rise in plasma growth hormone (GH) after thyrotrophin-releasing hormone (TRH) and a striking reduction after dopaminergic drugs is present in acromegalic ('responder') patients. We have investigated the GH response to dopaminergic stimuli in two conditions of animals and man, which, like acromegaly, are characterized by a TRH-induced GH rise, i.e. rats with electrolytic lesions of the median eminence (ME) and patients with hepatic cirrhosis. In addition, we have studied the TRH-induced GH rise in rats with ME lesions, in the cirrhotic patients and in a group of 'responder' acromegalics before and after administration of dopaminergic drugs. In rats with ME lesions an infusion of dopamine (DA) neither modified baseline GH levels nor the TRH-induced GH rise. In five out of six cirrhotic patients oral administration of L-Dopa was followed by the usual rise in plasma GH. infusion of DA increased plasma GH levels in three out of seven cirrhotic patients and in four out of five subjects an earlier GH rise after TRH was seen. However, in the 'responder' acromegalics, the infusion of DA, besides lowering baseline plasma GH, was capable of reducing the TRH-induced GH rise. Collectively these data indicate that the TRH-induced GH rise emphasizes defects in the neurohormonal links between the central nervous system and the anterior pituitary. Instead, the paradoxical fall of GH after dopaminergic drugs appears to be a prerequisite of acromegaly and may be attributable to receptors for DA located on the tumorous tissue.
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PMID:Interaction between the thyrotrophin-releasing hormone-induced growth hormone rise and dopaminergic drugs: studies in pathologic conditions of the animal and man. 11 94

Glucagon is secreted not only by A2-cells of the pancreatic islets but also by A cells in the gastric fundus and duodenum. Several reports have demonstrated that the glucagon plasma concentration is increased in genetic diabetes as well as in many conditions associated with a decreased glucose tolerance such as hepatic cirrhosis, myocardial infarction, infectious diseases, burns, taumatic shock, glucagonomas, acute pancreatitis, acromegaly, pheochromacytoma and Cushing's syndrome. Hyperglucagonemia is particularly important in diabetic ketoacidosis and in non-ketotic hyperosmolar coma. The mechanisms responsible for the diabetic's hyperglucagonemia remain controversial. According to several authors, the increased glucagon secretion is, for its main part, secondary to a prolonged defect in insulin secretion and thus relatively insensitive to an acute insulin administration. According to others, the A cell abnormality is of primary origin, independant from insulin deficiency and its effects are cumulative with those of the insulin lack. Several reports dealing with induced or spontaneous experimental diabetes are in favor of the first or the second hypothesis. It appears likely that glucagon plays a role in the metabolic derangments of diabetes. Indeed, hepatic glucose production is closely related to the ratio of molar concentrations of insulin and glucagon. Finally, in insulin-dependant diabetics, somatostatin infusion reduces plasma glucagon concentration and blood glucose and prevents the development of ketosis after withdrawal of insulin therapy. These results illustrate the contribution of glucagon in the pathogenesis of hyperglycemia and ketosis. Several arguments have been accumulated in favor of the following concept: diabetes hyperglycemia results both from glucose under-utilization secondary to insulin lack and from hepatic glucose over-production due to glucagon excess. Although controversial, the role of glucagon in ketogenesis appears likely.
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PMID:[The role of glucagon in hyperglycemia. A review (author's transl)]. 79 28

Serum SMC level was measured in acromegalic patients with different disease activity. The serum SMC level of 10 untreated and 15 treated patients with active disease was 30.5 +/- 17.6 and 23.8 +/- 16.3 KU/L respectively. These levels were significantly higher than the value 2.7 +/- 2.8 KU/L in 7 patients during remitting state. The serum SMC level correlated with the basal and the nadir GH level and the area under the GH curve in glucose suppression test. The serum SMC levels in 6 patients with prolactinoma, 10 patients with Grave's disease and 8 patients with renal failure were all in normal range, but in 10 patients with liver cirrhosis it was 0.36 +/- 0.39 KU/L, which was significantly lower than the normal value. We concluded that serum SMC level is a good criterion for assessment of disease activity of acromegaly for it does not require a dynamic test and it does not increase in other diseases.
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PMID:[Application of serum somatomedin C level to assess the disease activity in patients with acromegaly]. 130 59

The discovery and subsequent clinical application of somatostatine, a polypeptide neurohormone of 14 amino acids, and of its analogs, opens a novel chapter of neuroendocrinology that is still in full evolution and to a large extent unknown. The isolation of an octapeptide, a selective somatostatine analog, permits to prolong its action, in fact it has a halflife of about 140 min in old subjects and about 100 min. in the young. Thanks to its excellent tolerability, the synthetic hormone can be usefully applied in the treatment of acromegaly, gigantism and hypersomatotropinemic conditions in general, and even in other clinical branches, such as treatment of esophageal hemorrhage due to the rupture of varices in liver cirrhosis or to erosion of gastric blood vessels in patients suffering from peptic ulcer disease.
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PMID:[New prospects in the therapeutic use of somatostatin and its derivatives]. 167 25

Insulin-like growth factor II (IGF-II) levels in human plasma were measured in physiological and pathological conditions by radioimmunoassay (RIA) with biosynthetic IGF-II. This RIA was specific for IGF-II and cross-reactivity with IGF-I was 1%. The sensitivity was 15 pg/tube with 50% displacement at 50 pg/tube. The intra- and inter-assay coefficients of variation for IGF-II were 6.3 and 9.3%, respectively. The plasma IGF-II levels in normal adults, patients with hypopituitarism and patients with active acromegaly were 589.6 +/- 15.8, 800.9 +/- 45.6 and 330.3 +/- 24.3 ng/ml, respectively. After human growth hormone (hGH) treatment in hypopituitarism, IGF-II slightly increased, but not significantly. After adenomectomy in patients with acromegaly, IGF-II significantly decreased. These data indicate that IGF-II concentrations in plasma were partially GH dependent. This GH dependency was less than that of IGF-I. IGF-II was low in patients with anorexia nervosa and with liver cirrhosis and high in patients with renal failure. In two cases with extrapancreatic tumor-associated hypoglycemia, plasma IGF-II was increased to 1123.8 and 843.5 ng/ml, and returned to normal after tumor resection. These data showed that IGF-II was partly dependent on GH and nutritional conditions and that IGF-II was the most likely cause of some cases of hypoglycemia with extrapancreatic tumor. This specific and sensitive RIA of IGF-II would be useful in evaluating its physiological and pathological role in plasma and tissue.
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PMID:Radioimmunoassay for insulin-like growth factor II (IGF-II). 208 2

Insulin-like growth factor (IGF) I and IGF-II were measured by radioimmunoassay in the sera of seven patients with acromegaly, 36 normal control subjects, 15 patients with chronic hepatitis, 15 patients with cirrhosis, 25 patients with hepatocellular carcinomas (HCCs) who did not have hypoglycemia, 20 patients with HCCs who did have hypoglycemia, and 10 patients with metastatic liver tumors. Both IGF-I and IGF-II levels decreased as liver disease progressed from the normal control stage to chronic hepatitis and cirrhosis, and both levels reflected the severity of liver disease. Patients with HCCs who had hypoglycemia had relatively higher IGF-II levels in their sera in comparison with those who did not have hypoglycemia (272 +/- 167.5 ng/ml vs 110.4 +/- 85.9 ng/ml [mean +/- SD], p less than 0.0005), despite the fact that those with hypoglycemia had more advanced liver cancer and had lower IGF-I levels in sera (16.7 +/- 14.1 ng/ml vs 46.8 +/- 47.9 ng/ml, p less than 0.002). It is possible that a labile IGF-II material is produced by the cancer cells of patients with hypoglycemia. This factor is reactive to the IGF-II receptor and partially cross-reacts with an antibody to IGF-II; it accounted for the mildly elevated levels of serum IGF-II. Hypoglycemia may be an integral effect of relatively elevated IGF-II like material and an advanced liver cancer. Also, higher serum alpha-fetoprotein (AFP) levels were more frequently found in patients with hypoglycemia who had relatively elevated IGF-II levels and short survivals.
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PMID:Radioimmunoassay of serum IGF-I and IGF-II in patients with chronic liver diseases and hepatocellular carcinoma with or without hypoglycemia. 246 May 70

Binding proteins (BP) for growth hormone (GH) have recently been discovered in human plasma. The main BP is related to the GH receptor and probably corresponds to the extracellular portion of the receptor. The BP influence several aspects of GH homeostasis and action. Their level and activity in blood, therefore, become important variables in overall GH physiology. However, to date little is known about the regulation of GH-BP in health and disease. To gain initial information about this point, GH-BP activity was examined in the plasma of 124 subjects with various physiologic and pathologic conditions. The conditions were selected to provide basic physiologic data (men, women, children, age, pregnancy and to investigate key disease states attended by abnormal GH physiology (liver cirrhosis, uremia, infection, acromegaly). A standardized GH binding assay was used to measure BP activity as an index of BP levels. Both the principal, high affinity BP (peak II) and the minor, low affinity BP (peak I) showed considerable individual variation in all groups. Neonates had the lowest levels of both BPs, but by the age of 1 year the levels had increased and remained fairly stable through the seventh decade. In males but not females between the ages of 1 and 20 years, the main (peak II) BP showed a slight upward trend, whereas the minor (peak I) BP declined moderately. Patients with cirrhosis showed the most variation in both BP, and uremic patients demonstrated decreased peak II, but not peak I, binding. Neither BP was affected in acromegaly. We conclude that BP activity in plasma is well conserved in most conditions, but substantial individual variability exists. BP activity increases dramatically during the first year of life.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of plasma growth hormone-binding proteins in health and disease. 273 78

The newly discovered circulating growth hormone binding proteins dictate a re-evaluation of the state of GH in plasma in health and disease as the binding proteins are known to affect GH metabolism and action. We describe a rapid and simple GH-binding assay that allows determination of free and complexed plasma GH, as well as GH-binding protein activity as an index of GH-binding protein levels, with relative ease. The method is based on incubation of plasma with 125I-GH and separation of bound from free GH on small DEAE-cellulose columns; it can be used on a large scale for routine determinations. The results obtained by this method are comparable to those obtained with the previously used slow and more cumbersome gel filtration technique. Initial data obtained in normal subjects and certain disease states show that the bound fraction of plasma GH is similar in men, women and children, is unaffected by pregnancy or acute infection, but is marginally decreased in liver cirrhosis. In acromegaly, binding protein activity also appears normal when allowance is made for partial saturation of the binding proteins by the high prevailing GH levels. The technique we describe should facilitate investigations of normal and abnormal regulation of the GH binding proteins.
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PMID:A rapid and simple assay for growth hormone-binding protein activity in human plasma. 320 82

We produced antiserum to insulin-like growth factor I (IGF-I), and developed a specific and sensitive radioimmunoassay (RIA) for IGF-I using the biosynthetic IGF-I. This antiserum to IGF-I was specific for IGF-I; no cross-reactivities with multiplication stimulating activity, porcine insulin or human growth hormone (hGH) were detected. The sensitivity was 10-25 pg/tube with 50% displacement at 125 pg/tube. The intra- and inter-assay coefficients of variation for IGF-I were 5.4 and 9.7%, respectively. The plasma IGF-I levels as determined by RIA in normal adults (N = 46), patients with active acromegaly (N = 31), and pituitary dwarfs (N = 31) were 21.6 +/- 1.0, 157.3 +/- 17.0, and 2.5 +/- 0.3 ng/ml (Mean +/- SEM), respectively, indicating the levels were GH-dependent. The plasma IGF-I levels were significantly increased from 2.2 +/- 0.2 to 26.5 +/- 3.2 ng/ml after hGH administrations for three consecutive days in five pituitary dwarfs. The IGF-I levels were low in patients with hypothyroidism and liver cirrhosis, but were normal in patients with chronic renal failure. These data confirm previous reports and this radioimmunoassay proves useful in evaluating plasma IGF-I levels.
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PMID:Radioimmunoassay for insulin-like growth factor I (IGF-I) using biosynthetic IGF-I. 358 65

Patients with chronic liver diseases were evaluated for: 1) the ability of somatostatin to affect the thyrotropin-releasing hormone (TRH) induced growth hormone (GH) rise; 2) the competence of luteinizing-hormone releasing hormone (LH-RH) to release GH; 3) the non-specific releasing effect of TRH and LH-RH on other anterior pituitary (AP) hormones. In 6 patients, infusion of somatostatin (100 micrograms iv bolus + 375 micrograms i.v. infusion) completely abolished the TRH (400 micrograms i.v.)-induced GH rise; in none of 12 patients, of whom 7 were GH-responders to TRH, did LH-RH (100 micrograms i.v.) cause release of GH; 4) finally, LH-RH (12 patients) did not increase plasma prolactin (PRL) and TRH (7 patients) did not evoke a non-specific release of gonadotropins. It is concluded that: 1) abnormal GH-responsiveness to TRH is the unique alteration in AP responsiveness to hypothalamic hormones present in liver cirrhosis; 2) the mechanism(s) subserving the altered GH response to TRH is different from that underlying the TRH-induced GH rise present in another pathologic state i.e. acromegaly, a condition in which the effect of TRH escapes somatostatin suppression and LH-RH evokes GH and PRL release.
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PMID:Growth hormone response to thyrotropin-releasing hormone in liver cirrhosis: unique alteration in anterior pituitary responsiveness to hypothalamic hormones. 612 95

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