UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanisms controlling secretion of glucagon and other pancreatic hormones were studied in a patient affected with multihormone-secreting islet-cell tumor. Fasting glucagon levels (3,000 pg./ml.) rose to 10 ng./ml. following arginine stimulation. While oral glucose load and intravenous glucose infusion did not suppress glucagon secretion, insulin administration induced a prompt depression in glucagon levels. Glucagon, insulin, and gastrin levels were suppressed by somatostatin while calcium infusion caused a paradoxical increase. It is suggested that only some of the stimulation-inhibition mechanisms were conserved in this case of glucagon-secreting pancreatic tumor.
Diabetes 1976 May
PMID:Suppression and stimulation mechanisms controlling glucagon secretion in a case of islet-cell tumor producing glucagon, insulin, and gastrin. 0 26

The hypothalamic regulatory hormones used for clinical studies are TRH, Gn-RH and somatostatin. In addition, as dopamine appears to be a physiological PIF, the dopamine agonists such as bromocriptine, could be considered as functional analogues of PIF. Gn-RH can be used to study the hypothalamic-pituitary gonadal relationship and to test the secretory reserve capacity of the gonadotrophs in disease states. Unfortunately Gn-RH testing discrimulates between pituitary and hypothalamic diseases only poorly. However gonadotrophin deficient men or women may be successfully treated with long-term Gn-RH with induction of puberty, potency, spermatogenesis and ovulation. Somatostatin has multiple actions in inhibiting endocrine and exocrine secretion but its actions are still being explored in diabetes. Bromocriptine, a long acting dopamine agonist (a functional analogue of PIF), suppresses prolactin and is highly effective in treating many hypogonadal states since hyperprolactinaemia is common. It also lowers growth hormone in acromegaly. TRH has provided a major, accurate, sensitive and safe test of thyroid function.
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PMID:Hypothalamic regulatory hormones: physiological and clinical implications. 2 68

The aim of the present study was to evaluate possible hemodynamic effects of somatostatin in insulin-dependent diabetic subjects. For this purpose, 7 insulin-requiring juvenile-onset diabetics were submitted to a short-term infusion of cyclic somatostatin (250 micrograms/h, over 2 h) or saline in randomized order. Somatostatin infusion resulted in a progressive and significant decrease in heart rate, stroke volume, cardiac index and velocity circumferential fiber; on the other hand, left ventricular ejection time was augmented by somatostatin. None of these effects was seen in the saline control study. We conclude that somatostatin exerts a negative inotropic effect in insulin-dependent diabetes.
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PMID:Hemodynamic effects of somatostatin in insulin-dependent diabetic subjects. 4 64

Autoantibodies reacting with discrete populations of cells in normal human pancreatic islets were found by immunofluorescence in 17 out of 1279 sera. A double immunofluorescence technique, with antisera to pancreatic glucagon, insulin, somatostatin, and human pancreatic polypeptide was used to show that 13 of the sera contained anitbodies reacting specifically with glucagon cells, while the other 4 reacted with somatostatin cells. These antibodies were directed against intracellular components and not against the hormones themselves. Both types of antibody occurred independently of the islet-cell antibodies which have been described in diabetes mellitus. These findings suggest selective damage to individual cell types in the pancreatic islets and raise the possibility of corresponding hormone deficiency syndromes.
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PMID:Separate autoantibodies to human pancreatic glucagon and somatostatin cells. 6 13

Infusion of somatostatin, an inhibitor of glucagon secretion, in insulin-dependent diabetics resulted in a 75-100% reduction in the blood-glucose rise after oral glucose administration, but did not improve intravenous glucose tolerance. Somatostatin reduced blood-xylose levels by 50-90% after ingestion of this pentose and delayed the peak increment in blood-xylose by 1-2 h. Similar effects on blood-xylose levels and a 30% reduction in splanchnic blood-flow were observed in normal subjects during infusion of somatostatin. Glucagon administration (3 ng per kg per min) or intraduodenal administration of xylose did not reverse somatostatin's effect on xylose tolerance. Somatostatin reduces postprandial hyperglycaemia in diabetes primarily by decreasing and/or delaying carbohydrate absorption rather than enhancing carbohydrate disposal. This effect may be mediated, in part, but a reduction in splanchnic blood-flow. These findings indicate that postprandial hyperglycaemia in diabetes is due primarily to insulin deficiency rather than glucagon excess.
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PMID:Influence of somatostatin on carbohydrate disposal and absorption in diabetes mellitus. 6 40

Pancreatic islet-cell antibodies (ICA) are important markers for two subtypes of insulin-dependent diabetes mellitus and stain the entire islet in the standard immunofluorescence test. This could indicate either a mixture of antibodies each directed against one cell type, or a population of antibodies reacting with a single antigen common to the endocrine pancreas. In the present experiments such a common antigen was demonstrated visually by application of animal antisera raised to each of the 4 pancreatic hormones, together with ICA-positive sera in a four-layer double immunofluorescent technique employing green and red anti-Ig conjugates. Double exposure photographs demonstrated that the patients' sera reacted equally with the different endocrine cells. The ICA antigen did not cross-react with gastric glucagon- or somatostatin-cells. By contrast, human antibodies against glucagon-cells (GCA) or somatostatin-cells (SCA) reacted with discrete antigens specific to each cell type and in 50% of cases the antibodies also stained the respective endocrine cells in the gastrointestinal tract. These refined discriminatory properties of human autoantibodies may lead to a better understanding of the intracellular membrane systems in these important endocrine organs.
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PMID:Islet-cell antibodies (ICA) in diabetes mellitus (evidence of an autoantigen common to all cells in the islet of Langerhans). 8 9

Streptozotocin-induced diabetes in the rat can be reversed by the transplantation of isogenic islets of Langerhans from neonatal donors. We studied the morphology of intraportally transplanted islets with the aid of the immunoperoxidase staining technique to identify insulin-, glucagon-, somatostatin-, and pancreatic polypeptide-containing cells at 24 hours, 48 hours, 1 week, 2 weeks, 4 weeks, 39 weeks, and 65 weeks after transplant. Embolized pancreatic tissue, composed of approximately 80% acini and 20% islets, is initially distributed throughout the liver mainly to terminal branches of the portal system. Endothelialization and organization occur rapidly with the smaller fragments and within the first 4 weeks for larger thrombi. Exocrine pancreatic elements largely disappear as islet cells move into the hepatic lobules from the portal spaces. At 65 weeks after transplant, all islet cell types can be identified within large complex islet structures. The results of this study establish the survival and continued function of all known rat pancreatic islet cell types long after transplantation and support the theory that islet transplantation may represent the most physiologic replacement of hormonal deficiencies in the diabetic recipient.
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PMID:The fate of intraportally transplanted islets in diabetic rats. A morphologic and immunohistochemical study. 9 48

For more than half a century the management of hyperglycemia in diabetes mellitus has included rigid diets and intermittent subcutaneous insulin administration. These methods have been totally unsuccessful in restoring glucose homeostasis to normal in most diabetic patients. This review focuses on techniques that offer promise as alternatives or adjuncts to the current modalities of treatment. Specific areas discussed include pancreatic transplantation, islet cell transplantation, artificial beta cell devices, and the glucagon-suppressing agent somatostatin. Although many of these show promise for the future, a cure for the metabolic abnormalities of diabetes is not imminent.
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PMID:Treatment of diabetes mellitus: the future. 10 34

A radioimmunoassay (RIA) method for somatostatin (SRIF) utilizing rabbit antiserum against synthetic SRIF coupled with human serum alpha-globulin is described. Synthetic N alpha-tyrosylated SRIF was labelled with 125I using the lactoperoxidase method and purified on a Sephadex G-10 column. This assay system was highly specific for SRIF and did not cross-react with hypothalamic trophic hormones, pituitary trophic hormones or gastrointestinal hormones. The effect of streptozotocin induced diabetes on the SRIF content was examined in the pancreas, the pancreatic islets, as well as the hypothalamus of rats. SRIF content in both the pancreas and islets of the diabetic rats was shown by RIA to have significantly increased. However, content in the hypothalamus of the diabetic rats did not differ from that of the control. The physiological and pathophysiological significance of the SRIF changes remains to determined.
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PMID:Effect of streptozotocin administration on somatostatin content of pancreas and hypothalamus in rats. 14 51

Changes in immunoreactive somatostatin were examined in islets, whole pancreas, stomach, and hypothalamus of streptozotocin-diabetic rats. There was no change in islet somatostatin content at 2 days after the administration of streptozotocin, but thereafter, somatostatin progressively increased in the diabetic animals by 45% at 2 weeks, 230% at 6 weeks, and 500% by 6 months. By contrast, islet glucagon rose acutely and maintained a constant 2-fold elevation irrespective of the duration of the diabetes. Morphometric analysis of the somatostatin- and glucagon-producing cells in the islets revealed an apparent augmentation of both cell types. The concentration of somatostatin per total pancreas was also increased in the diabetic animals, suggesting that the islet increase was part of a true increase in pancreatic somatostatin. Pancreatic glucagon was unchanged despite the islet increase. The increase in pancreatic somatostatin was paralleled by an elevation in gastric somatostatin concentration, implying a common mechanism in response to streptozotocin for the somatostatin cells in these two sites. There was no change in hypothalamic somatostatin concentration. Islet somatostatin was also increased in alloxan-diabetic rats. suggesting that streptozotocin does not stimulate the D cells directly.
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PMID:Changes in somatostatin concentration in pancreas and other tissues of streptozotocin diabetic rats. 15 2

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