UMLS:C0011854 - FACTA Search

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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The glucagon response to insulin hypoglycaemia is frequently reduced in patients with IDDM. In the present study arginine infusion, thought to act directly on the islet cells, was used to stimulate somatostatin (SRIF) and glucagon in IDDM without residual B-cell function. Thirteen IDDM patients' were compared with 13 sex- and age matched normal controls following an arginine infusion. The plasma SRIF concentrations in the 'IDDM group' and normal controls increased from 24.2 +/- 2.5 to 31.1 +/- 3.9 pmol/l (P less than 0.01) and 19.7 +/- 1.7 to 23.9 +/- 3.4 pmol/l respectively after 10 min (P less than 0.01). The plasma glucagon concentrations increased from 27 +/- 4.7 to 176 +/- 23.1 pmol/l (P less than 0.01) and 36 +/- 5.0 to 302 +/- 31.9 pmol/l (P less than 0.01) respectively after 20 min. Thus, in long standing IDDM without residual B-cell function, increased plasma SRIF concentrations are found and the glucagon response to arginine is reduced. The last observation further explains why these patients are especially vulnerable to hypoglycaemia.
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PMID:Increased peripheral venous somatostatin concentration and decreased glucagon response to arginine in patients with insulin dependent diabetes mellitus without residual B-cell function. Increased plasma SRIF in IDDM. 286 13

To further study the elevated plasma somatostatin (SRIF)--and reduced plasma glucagon concentrations found in IDDM patients without residual B-cell function compared to normal controls, we investigated 39 such patients, randomly assigned to three different insulin treatment regimens; conventional therapy with two injections a day (CTh), insulin pump (CSII) and multiple injections (MI), for 1 year. They were given an arginine infusion (0.5 g/kg/20 min). The mean basal plasma SRIF values in the CTh, CSII and MI groups were 20.8 +/- 3.3, 18.6 +/- 1.8 and 20.6 +/- 2.8 pmol/l and the mean basal plasma glucagon values were 30 +/- 5.7, 19 +/- 2.3 and 27 +/- 4.7 pmol/l, respectively. Both SRIF and glucagon increased in all groups in relation to arginine infusion. For both hormones, the mean values were highest in the CTh group, lowest in the CSII group, although the differences were not significant. The mean HbA1 values for the last 3 months within the test were 10.0 +/- 0.5, 8.8 +/- 0.3 and 9.1 +/- 0.5%, respectively, in the same order as above. The CTh group had significantly higher HbA1 values than the CSII group (p less than 0.02). We conclude that small differences in long-term blood glucose control are of inconsiderable importance for the islet hormonal response to arginine found in IDDM without B-cell function.
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PMID:Plasma somatostatin and plasma glucagon in long-term IDDM without residual B-cell function. No effect of different long-term metabolic control. 287 90

Growth hormone (hGH) reserve following arginine administration and the paradoxical hGH response to thyrotropin-releasing hormone (TRH) were studied in 30 diabetics without evidence of vascular complications. The diabetics were divided into 4 groups according to the type of their disease and to the metabolic condition within the IDDM group (insulin-dependent: IDDM, in acceptable response and in poor metabolic control; non-insulin-dependent: NIDDM, and juvenile diabetics not requiring insulin at least for two years after diagnosing their disease: NIDDY). The results were compared with controls of identical age and normal weight. A paradoxical hGH response to TRH stimulation was found only in IDDM patients in poor metabolic control. In this group the hGH reserve revealed by arginine was significantly larger than in the others. It was shown that the induced hGH release was independent of the sex distribution of the groups and of the basal hGH values. Magnitude of the hGH reserve and appearance of the paradoxical hGH response were not necessarily correlated but the substantial reserve was frequently associated with a paradoxical response. It can be assumed that the unfavorable metabolic condition is of decisive importance in giving rise to these anomalies. Our observations seem to confirm the need for good metabolic control if the pathological hGH secretion in diabetics is to be prevented.
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PMID:Arginine induced growth hormone (hGH) response and paradoxical hGH secretion stimulated by TRH in diabetes mellitus. 311 18

To investigate the development of impaired insulin secretion in type I diabetes mellitus, the pancreata of ICR and NOD mice (10-50 wk of age) were perfused. According to insulin responses to 30 mM glucose and to 19 mM arginine, we classified the NOD mice into four groups: those having normal insulin secretion to glucose and to arginine similar to that of control ICR mice (group 1); those with a defect in the first-phase insulin secretion to glucose stimulation but with almost normal insulin secretion to arginine, total insulin release to glucose being significantly smaller than that of group 1 (group 2); those having only a small insulin response to either stimulus, but a fasting plasma glucose level still within the normal range (group 3); and those being overtly diabetic, showing no insulin response to either stimulus (group 4). The severity of insulitis and insulin concentration of the pancreas in each group of NOD mice was well correlated with the insulin release from the perfused pancreas. These results indicate that the initial sign of B-cell damage in NOD mice is a defect of the first phase of glucose-induced insulin secretion, which is followed by a total loss of ability to respond to glucose or arginine stimulation.
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PMID:Defect of the first-phase insulin secretion to glucose stimulation in the perfused pancreas of the nonobese diabetic (NOD) mouse. 351 27

In order to better understand the role of A- and B-cell function in diabetic pregnancy, we studied four groups of pregnant women at week 34-36 of gestation. Seventeen were healthy controls (C), 24 had gestational diabetes (GD), 16 had type 2 diabetes (NIDD) and 37 had type 1 diabetes (IDD). At times -20, 0, 20, 30, 45, 60, 90 and 120 min from the beginning of a 30 min infusion of 30 g of arginine intravenously, plasma glucose, glucagon (IRG) and C-peptide (CPR) were measured. Plasma glucose was higher in diabetic than in control subjects. IRG values were also higher in the GD and the NIDD women. CPR values were similar to, or slightly higher than control values in the GD and the NIDD and were much lower in the IDD women. All three variables increased during the arginine infusion in all groups, with the exception that CPR remained unchanged in the IDD. The CPR/IRG molar ratio was similar in control, GD and NIDD women; in the IDD, it was much smaller than in the other groups and was not affected by arginine. In all the diabetic patients, IRG was negatively correlated with the maternal weight gain and in the IDD IRG was positively correlated with the increase in the insulin need and with the CPR levels. In conclusion diabetes appeared to enhance the A-cell function also in pregnancy, possibly impairing the 'facilitated anabolism' and stressing the 'accelerated starvation' which are typical of normal pregnancy. Glucagon was confirmed as one possible determinant of the insulin resistance seen in diabetic pregnancy.
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PMID:Endocrine pancreatic function in insulin-dependent diabetic pregnant women. 353 67

It has been widely reported that dysfunctions of pancreatic A-cell occur in diabetics. Since these pancreatic A-cell dysfunctions are not normalized by conventional insulin injection treatment, they were thought to be a primary defect of diabetes mellitus. Recently it was found that paradoxic glucagon secretion to oral glucose and excessive glucagon response to i.v. arginine could be perfectly normalized if strict blood glucose regulations were achieved with appropriate insulin treatment. However, there has been no report on the perfect normalization of glucagon secretion in response to insulin-induced hypoglycemia in diabetics. In this report, to elucidate the precise significance of A-cell function in hypoglycemia in diabetics, the effect of long-term strict glycemic regulations and the importance of intact autonomic nerve function on hypoglycemia-induced glucagon secretion were studied. In experiments on hypoglycemia-induced glucagon secretion in diabetics, 0.2 to 0.3 U/kg of regular insulin injection were usually employed to overcome the hyperglycemia and insulin resistance. However, hyperinsulinemia has been demonstrated to suppress A-cell function in experiments using the euglycemic clamp technique. Therefore, the effect of plasma insulin concentrations after insulin injections was first studied in 7 healthy volunteers by injecting insulin at doses of 0.1 U/kg and 0.3 U/kg. In this experiment with 0.3 U/kg of insulin, the rate of fall in glycemia and the nadir of blood glucose were made similar to that with 0.1 U/kg of insulin by using glucose clamp technique with artificial endocrine pancreas. The plasma glucagon response after 0.3 U/kg of insulin was significantly suppressed as compared to that after 0.1 U/kg of insulin. From these experiments, it was concluded that not only hypoglycemic stimuli but also plasma insulin concentrations are important factors for demonstrating significant glucagon secretion in response to insulin-induced hypoglycemia. Second, the effects of strict glycemic control and autonomic nerve function on hypoglycemia-induced glucagon secretion were studied. Regular insulin at a dose of 0.1 U/kg was injected in an i.v. bolus form into 21 insulin-dependent (IDDM) and 22 noninsulin-dependent (NIDDM) diabetics before and one to three months after strict glycemic control with multiple insulin injection therapy or continuous subcutaneous insulin infusion therapy. To reduce fasting blood glucose level and to obtain the same hypoglycemic stimuli, overnight insulin infusion at a basal dose was undertaken in IDDM who showed hyperglycemia before strict glycemic regulations.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Mechanism of the blunted glucagon response to insulin-induced hypoglycemia in diabetics]. 354 95

The magnitude of hGH reserve was investigated in young (16-40 years old) diabetic patients. Forty patients were examined with the arginine infusion test, twenty three with a sensitized version of the L-Dopa test. The patients were divided into four groups based on the type of their illness (IDDM or NIDDY) and the clinical stage of IDDM. It was concluded that the hGH reserve of the various diabetic groups differs from the hGH reserve of healthy persons as well as from one another. Taking into consideration the possible causes of these differences, it is suggested that the hGH reserve depends primarily on the metabolic condition of the patients, while the type of diabetes (IDDM or NIDDY) and the insulin therapy used may also be important contributing factors. Achievement of a good metabolic control within the same type of diabetes leads to the normalization of the previously pathologic hGH reserve.
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PMID:Growth hormone reserve in diabetes mellitus. 368 49

As far as exaggerated arginine-induced glucagon secretion in diabetics is concerned, the authors have shown that both the restoration of blood glucose excursions and physiological insulinemia in response to arginine, obtained from an artificial endocrine pancreas (AEP) could normalize the glucagon secretory responses in diabetes mellitus. To clarify whether or not physiological glycemic excursions and/or plasma insulin profiles contribute to the normalization of the exaggerated glucagon response in diabetes mellitus, the following 4 investigations were conducted on each of 7 non-obese, non-insulin-dependent diabetic (NIDDM), and 8 insulin-dependent diabetic (IDDM) subjects, with the aid of AEP. Arginine was i.v. infused into both diabetic groups (1) in a hyperglycemic state without insulin infusion, (2) in perfect glycemic control with insulin infusion by AEP, (3) in glycemic control with AEP, but with lower plasma insulin profiles (parameters of the insulin infusion algorithm were made smaller than those of (2], (4) in a state where blood glucose levels were clamped at the same levels as obtained in (1) with the aid of glucose infusion controlled by AEP, and where physiological plasma insulin profiles were mimicked by infusing insulin at the same rates used in (2) with a pre-programmable insulin infusion system. The changes in the plasma glucagon (IRG) response in each experiment were compared with those seen in healthy subjects. For both diabetic groups it was found that: in (2) perfect normalization of glucagon response was achieved.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The mechanism of exaggerated glucagon response to arginine in diabetes mellitus. 391 60

The insulin secretory response to various beta-cell secretagogues was studied in four children (ages 11, 11, 12, and 10 yr) in "early" stages or remission of type I diabetes mellitus. One child was an anti-islet antibody positive monozygotic twin of a type I diabetic subject, two children had impaired glucose tolerance and elevated levels of Ia-positive T-cells, and the fourth was in remission (off insulin) of type I diabetes 6 mo after immunotherapy. The peak first-phase (0-10 min) insulin increment after intravenous (i.v.) glucose was negligible in each patient, whereas the peak responses to i.v. glucagon, tolbutamide, arginine, and oral glucose ranged between 10% and 43% of median responses in normal control subjects. The rank order of response to a variety of secretagogues was remarkably similar in all four subjects: i.v. arginine greater than i.v. glucagon greater than oral glucose greater than i.v. tolbutamide greater than i.v. glucose. These studies indicate that a "functional" beta-cell defect, namely a complete loss of response to i.v. glucose and a partial loss to other secretagogues, exists in type I diabetic patients before complete beta-cell destruction. This alteration in beta-cell responsiveness probably underlies our prior observation of slowly progressive loss of i.v.-glucose-induced insulin release in islet cell antibody-positive siblings to type I diabetic subjects.
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PMID:Differential sensitivity to beta-cell secretagogues in "early," type I diabetes mellitus. 637 58

The pathophysiology of beta cell failure in IDDM has not been well documented. Islet cell responsiveness (C-peptide and glucagon) to oral glucose (OGTT), intravenous glucose (IVGTT), and arginine infusion was studied sequentially in a 24-yr-old nonobese patient with IDDM in prolonged remission interrupted by an episode of diabetic ketoacidosis and followed by a second transient (6 mo) partial recovery of beta cell function. The earliest abnormality in glucose tolerance was demonstrated with the IVGTT (K = 0.77) although OGTT (F, 101: 1/2 h, 177; 7 h, 211; 1 1 h, 144; and 2 h, 111 mg/dl) and glucagon responses to glucose and arginine were normal. With the development of abnormal OGTT, glucagon failed to suppress with hyperglycemia although basal levels were not elevated. With the development of frank clinical diabetes, C-peptide did not respond to oral or i.v. glucose although stimulation in response to arginine infusion was still possible. Basal glucagon concentrations were now elevated. Thus, the failing beta cell shows a progressive deterioration in its responsiveness to various secretagogues in a sequential manner (i.v. glucose followed by oral glucose and then i.v. arginine). Abnormalities in glucagon secretion can be demonstrated early in the development of abnormal oral glucose tolerance. With more precise elucidation of the etiology of diabetes, it may be possible to intervene therapeutically in diabetic individuals who experience a remission in order to prevent further deterioration in beta cell function.
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PMID:Pathophysiology of beta cell failure after prolonged remission of insulin-dependent diabetes mellitus (IDDM). 642 54

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