Cutaneous insulin allergy responsive to oral desensitisation and aspirin.

A diabetic man with no previous history of allergy began to suffer itchy, painful swelling at the sites of injection after three months'' treatment with bovine insulin. Insulin specific IgE concentrations (1.2-2.0 U/ml) were higher than in non-allergic diabetics (mean 0.4 (SD 0.06) U/ml) but lower than in most other patients allergic to insulin (1.0-19.0 U/ml). Standard approaches failed to overcome the allergic reaction, and four separate attempts at desensitisation were unsuccessful. The patient was then given oral insulin 800 U thrice daily together with enteric coated aspirin 1300 mg thrice daily for one week, and subsequent desensitisation with neutral insulin injection was carried out successfully. On stopping the aspirin the original reactions returned, and aspirin was therefore reinstituted as a permanent part of treatment. Whatever the mechanism in this patient, oral desensitisation and aspirin provided a simple method for treating a difficult condition.     

Plasma constituents and mortality in rat pups given chronic insulin via injection, pellet, or osmotic minipump

Two studies compared the glucose responses of 9-day-old rats given subcutaneous insulin, either continuously or via daily injection, for 10 days. In Experiment 1, implanted pellets released a total of 0, 1.9, or 5.7 U insulin/kg the first 24 h. Injected doses were larger, 0 or 8 U/kg. Injections caused no deaths, but insulin-releasing pellets caused high mortality within 24 h. Pups surviving the pellets were normoglycemic by treatment day 8. In Experiment 2, pups received 0.184 U of insulin daily, approximately 8 U/kg at 9 days, via either injection or osmotic minipump. All pups survived. Injected pups were hypoglycemic 2 h postinjection through treatment day 10, whereas pups with insulin minipumps were normoglycemic by day 5. Insulin injections, but not minipumps, lowered plasma triglycerides on day 10. To examine age differences in response to insulin, additional pups and adults received daily injections of 0 or 8 U/kg for 10 days. All survived. Insulin lowered plasma glucose more in pups than in adults and reduced triglycerides in pups but not in adults. The rapid development of normoglycemia in pups with insulin minipumps, compared with pups injected daily with the same dose, suggests that continuous early insulin may produce insulin resistance.     

A Prospective Trial of U500 Insulin Delivered by Omnipod in Patients With Type 2 Diabetes Mellitus and Severe Insulin Resistance

ObjectiveTo test the effectiveness and safety of U500 regular insulin delivered by continuous subcutaneous insulin infusion (CSII) via the Omnipod insulin delivery system in patients with uncontrolled type 2 diabetes mellitus and severe insulin resistance.MethodsIn this prospective, 1-year, proof-of-concept trial, patients with insulin-requiring type 2 diabetes who had a hemoglobin A1c level of 7.0% or higher and severe insulin resistance (average insulin requirement, 1.74 units of insulin per kilogram each day; range, 1.4 to 2.64 units of insulin per kilogram [average insulin dose, 196.4 units daily]) were identified at routine office visits at Mountain Diabetes and Endocrine Center in Asheville, North Carolina, between December 2007 and August 2008. All patients had been on intensive insulin therapy with or without oral agents for more than 3 months. All patients were switched from baseline failed therapy to U500 regular insulin by continuous subcutaneous insulin infusion via Omnipod. Effectiveness was assessed by hemoglobin A1c measurement and 72-hour continuous glucose monitoring at baseline and at weeks 13, 26, and, 52 and by treatment satisfaction assessed by the Insulin Delivery Rating System Questionnaire at baseline and at week 52 while on U500 via Omnipod.ResultsTwenty-one adults were enrolled (mean age, 54 years; mean duration of diabetes, 4 years; mean body mass index, 39.4 kg/m2; mean insulin requirement, 1.7 U/ kg per day; and mean hemoglobin A1c, 8.6%) whose previous treatment with U100 insulin regimens had failed. Twenty patients completed the study. Treatment with U500 insulin via Omnipod significantly reduced hemoglobin A1c by 1.23% (P < .001) and significantly increased the percentage of time spent in the blood glucose target range (70- 180 mg/dL) by 70.75% as assessed by continuous glucose monitoring (P < .001) without a significant increase in hypoglycemia. Patients were satisfied with treatment with U500 insulin via Omnipod, and 14 patients elected to remain on treatment at study completion.ConclusionsU500 insulin delivered subcutaneously continuously via Omnipod is a safe and effective method of insulin delivery in the very insulin-resistant type 2 diabetic population. (Endocr Pract. 2010;16:778-784)     

Insulin secretion from a continuously subcultivable isolate derived from foetal bovine pancreata beta cells. I. Monolayer cultures.

Monolayer cultures have been derived from bovine embryonic pancreatic cells grown in medium CMRL-1969 supplemented with foetal calf serum. The isolate has been subcultivated up to 10 population doublings. Insulin secretion from the cells into the culture medium declined with increasing passages. Of several insulin secretagogues, glucagon was found to be effective in potentiating insulin release from the cultivated cells into the medium. Insulin secretion rose to approximately 600 μU/culture/day in the presence of glucagon as compared to an average of 10 μU/culture/day in the control. This may be the first demonstration of a beta cell line developed from bovine embryonic pancreas.     

Effects of oral zinc gluconate on glucose effectiveness and insulin sensitivity in humans

Zinc improves both insulin secretion and insulin sensitivity, and exerts insulin-like effects. We investigated its acute effects on the parameters of glucose assimilation determined with the minimal model technique from frequent sampling intravenous glucose tolerance test (FSIVGTT) in seven healthy volunteers. FSIVGTTs (0.5 g/kg of glucose, followed by 2 U insulin iv injection at 19 min) were performed after the subjects had taken 20 mg zinc gluconate twice (the evening before and 30 min before the beginning of the test) or placebo pills (simple blind randomized protocol). Glucose assimilation was analyzed by calculating Kg (slope of the exponential decrease in glycemia), glucose effectiveness Sg (i.e., ability of glucose itself to increase its own disposal independent of insulin response), and SI (insulin sensitivity, i.e. the effect of increases in insulinemia on glucose disposal). The two latter parameters were calculated by fitting the experimental data with the two equations of Bergman’s “minimal model”. Zinc increased Kg (p<0.05) and Sg (p<0.05), whereas SI and insulin first-phase secretion did not significantly increase. This study suggests that zinc improves glucose assimilation, as evidenced by the increase in Kg, and that this improvement results mainly from an increase in glucose effectiveness (insulin-like effect), rather than an action on insulin response or insulin sensitivity.     

Basal and Bolus Insulin Requirements in Children,Adolescents, and Young Adults with type 1 Diabetes Mellitus on Continuous Subcutaneous Insulin Infusion (csii): Effects of age and Puberty

ObjectiveGuidelines for insulin dosing, including the insulin to carbohydrate ratio (I/C), insulin sensitivity factor (ISF), and basal/bolus ratio guidelines, have been well established for adults with type 1 diabetes mellitus (T1DM). However, clinical experience suggests that these guidelines are not appropriate for children. The purpose of this study was to determine the continuous subcutaneous insulin infusion (CSII) settings in children with T1DM at different ages and stages of puberty.MethodsA total of 154 patients data between the ages of 3 and 21 years with well-controlled T1DM according to American Diabetes Association guidelines were reviewed. Only patients on CSII who were not in the honeymoon period were included.ResultsPatients were divided into 8 groups according to age, gender, and/or pubertal stage. Insulin requirements increased with puberty in both sexes (0.69, 0.97, and 0.90 U/kg/day in children <7 years of age, midpubertal girls, and late-pubertal boys, respectively). Basal insulin requirement was lowest in the youngest group (34%; P<.01). The youngest group had the lowest I/C prediction factor (PF) (mean, 315.7 ± 79.4; P<.01 with all groups), and the ISF-PF was higher than that of the oldest group (mean, 2,588.3 ± 1,101.8; P<.01).ConclusionCSII dose calculations vary with age and pubertal status in children with T1DM. These differences must be considered when calculating CSII dosing, especially for younger children. (Endocr Pract. 2013; 19:805-811)     

Glycogen overload by postexercise insulin administration abolished the exercise-induced increase in GLUT4 protein

Summary To elucidate the role of muscle glycogen storage on regulation of GLUT4 protein expression and whole-body glucose tolerance, muscle glycogen level was manipulated by exercise and insulin administration. Sixty Sprague-Dawley rats were evenly separated into three groups: control (CON), immediately after exercise (EX0), and 16 h after exercise (EX16). Rats from each group were further divided into two groups: saline- and insulin-injected. The 2-day exercise protocol consisted of 2 bouts of 3-h swimming with 45-min rest for each day, which effectively depleted glycogen in both red gastrocnemius (RG) and plantaris muscles. EX0 rats were sacrificed immediately after the last bout of exercise on second day. CON and EX16 rats were intubated with 1 g/kg glucose solution following exercise and recovery for 16 h before muscle tissue collection. Insulin (0.5 μU/kg) or saline was injected daily at the time when glucose was intubated. Insulin injection elevated muscle glycogen levels substantially in both muscles above saline-injected group at CON and EX16. With previous day insulin injection, EX0 preserved greater amount of postexercise glycogen above their saline-injected control. In the saline-injected rats, EX16 significantly increased GLUT4 protein level above CON, concurrent with muscle glycogen supercompensation. Insulin injection for EX16 rats significantly enhanced muscle glycogen level above their saline-injected control, but the increases in muscle GLUT4 protein and whole-body glucose tolerance were attenuated. In conclusion, the new finding of the study was that glycogen overload by postexercise insulin administration significantly abolished the exercise-induced increases in GLUT4 protein and glucose tolerance.     

Use of Insulin Pump Therapy in Patients with Type 2 Diabetes After Failure of Multiple Daily Injections

ObjectiveTo determine the effectiveness of insulin pump use (continuous subcutaneous insulin infusion; CSII) in patients with type 2 diabetes (DM2) who have failed multiple daily injection (MDI) therapy.MethodsIn this retrospective study, charts of patients with DM2 who were started on CSII after failure of MDI were reviewed. Patients were categorized as primarily manual (fixed) bolus users or calculated (using pump software) bolus users. The change in hemoglobin A1c (HbA1c), weight, and basal insulin dose from baseline to 6 months was determined.ResultsFifty-seven patients (20 men and 37 women) ranging in age from 13 to 71 were identified in the study. A significant reduction in HbA1c was observed from 8.75 to 7.69% (P<.001). There was an increase in body mass index (BMI) from a mean of 36.53 to a mean of 37.21. A decrease in basal insulin requirement per kilogram of weight (−0.10 U/kg) was noted (P = .03). Seven patients using U-500 insulin in the pump also had a significant decrease in HbA1C of 1.1 % (P<.001), along with a 0.071 U/kg drop in basal insulin requirements (P<.001). When comparing calculated bolus users to manual bolus users, there was no difference in HbA1C improvement (P = .58).ConclusionWe found that CSII improves glucose control in patients with DM2 who have failed MDI despite a decrease in overall insulin requirements. This includes patients with severe insulin resistance using U-500 insulin. Use of frequent bolus adjustment incorporating carbohydrate counting and current glucose level does not appear to be required for this benefit. (Endocr Pract. 2013;19: 9-13)     

Effect of space flight and head-down bedrest on neuroendocrine response to metabolic stress in physically trained subjects

The aim of this study was to evaluate the association of plasma epinephrine (EPI) and norepinephrine (NE) responses to insulin induced hypoglycemia (ITT) 3 weeks before the space flight (SF), on the 5th day of SF, on the 2nd and 16th days after the landing in the first Slovak astronaut, and before and on the 5th day of prolonged subsequent head-down (-6 degrees) bed rest (BR) in 15 military aircraft pilots. Blood samples during the test were collected via cannula inserted into cubital vein, centrifuged in the special appliance Plasma-03, frozen in Kryogem-03, and at the end of the 8-day space flight transferred to Earth in special container for hormonal analysis. Insulin hypoglycemia was induced by i.v. administration of 0.1 IU/kg BW insulin (Actrapid HM) in bolus. Insulin administration led to a comparable hypoglycemia in pre-flight, in-flight conditions and before and after bed rest. ITT led to a pronounced increase in EPI levels and moderate increase in NE in pre-flight studies. However, an evidently reduced EPI response was found after insulin administration during SF and during BR. Thus, during the real microgravity in SF and simulated microgravity in BR, insulin-induced hypoglycemia activates the adrenomedullary system to less extent than at conditions of the Earth gravitation. Post-flight changes in EPI and NE levels did not significantly differ from those of pre-flight since SF was relatively short (8 days) and the readaptation to Earth gravitation was fast. It seems, that an increased blood flow in brain might be responsible for the reduced EPI response to insulin. Responses to ITT in physically fit subjects indicate the stimulus specificity of deconditioning effect of 5 days bed rest on stress response. Thus, the data indicate that catecholamine responses to ITT are reduced after exposure to real as well as simulated microgravity.     

Double test of insulin sensitivity in normal and obese subjects]

13 normal and 16 obese subjects have been chosen for a double insulin tolerance test: 0,02 U/Kg of insulin were administered i.v. with an interval of 60'. The glycemic curve of the normal subjects show an identical lay out after both pulses; on the contrary the obese subjects could be divided into two subgroups. In the first one the lowering glucose action can be compared after both pulses, while in the second one the first stimulus causes a weather lowering glucose action, than in the first group, which is furtherly reduced during the subsequent pulse. An insulin resistance in these subjects is thus stressed. In the obese subjects the NEFA have a higher concentration in both groups than in the normal ones, show a normal decrease, but a certain delay is observed in the rebound phase.     

Glucose tolerance and insulinemia in patients with hepatic cirrhosis and portal hypertension treated by portacaval anastomosis]

Development of diabetes mellitus is a common complication of side to side porta-caval anastomosis (PCA). Five patients with liver cirrhosis and portal hypertension have been studied with intravehous (IVGTT, 0,5 g/Kg B.W.) and oral (OGTT, 1 g/Kg B.W.) glucose tolerance tests before and three weeks after PCA. Fasting plasma glucose was 84 +/- 7 before and 87 +/- 3 mg/dl after PCA. Fasting IRI increased from 17 +/- 3 to 31 +/- 6 microU/ml. The pattern of plasma glucose and IRI response to IVGTT did not change after PCA. Plasma glucose resonse to OGTT after PCA showed only an earlier rise at 60 instead of 90 minutes, whereas IRI resonse (area under the insulin curve) was significantly enhanced (from 12.4 to 19.8 U/l, p < 0.05). These data suggest a role of gut polipeptides in determining hyperinsulinemia and insulin resistence in PCA patients.     

Effect of intestinal osmolality on insulin secretion to subsequent intravenous glucose or arginine in the rat

To elucidate the effect of intestinal osmolality on insulin secretion, we investigated insulin response to a subsequent intravenous infusion of glucose or arginine after intragastric or intraduodenal mannitol or NaCl instillation in the rat. After anesthesia with intraperitoneal pentobarbital sodium, mannitol solution (10% or 20%) or 2.7% NaCl was instillated into the stomach or duodenum for 5 min at a flow rate of 0.5 ml/min, and 20% glucose (0.5 g/kg) or 10% L-arginine (0.5 g/kg) was infused bolus into the femoral vein 45 min after intestinal instillation. Insulin response to intravenous glucose was significantly higher in the rat with intragastric or intraduodenal mannitol or NaCl infusion than in control rats with intragastric or intraduodenal instillation of distilled water. Insulin response to intravenous arginine was almost the same in all groups. Subcutaneous preadministration of propranolol (0.4 mg/kg), atropine (1.2 mg/kg), or phentolamine (0.8 mg/kg) did not alter the present phenomenon. These results suggest that intestinal osmolality may enhance insulin release to intravenous glucose, but not to arginine in the rat.     

Pattern of insulin delivery affects hepatic insulin sensitizing substance (HISS) action and insulin resistance

Hepatic insulin sensitizing substance (HISS) action accounts for 55% of the glucose disposal effect of a bolus of insulin in the fed state. To determine the effect of continuous versus pulsatile insulin delivery on HISS action in male Sprague-Dawley rats, insulin sensitivity was assessed using the rapid insulin sensitivity test (RIST) before and after a continuous, pulsatile, or bolus insulin (60 mU/kg i.v.) delivery. There was a significant difference in the RIST index after a continuous insulin infusion (247.9 mg/kg before, 73.2 mg/kg after) but not after 3 pulses where insulin action returned to baseline between pulses (211.6 mg/kg before, 191.0 mg/kg after) or single bolus (205.8 mg/kg before, 189.9 mg/kg after) insulin infusion. If a 3-pulse infusion was timed so that insulin action did not return to baseline between pulses, HISS action was suppressed. Continuous insulin infusion (10-30 min) showed progressive postinfusion blockade of HISS action. To maintain HISS-dependent insulin action, continuous insulin infusions should be avoided.     

Increasing preweaning milk replacer supply affects postweaning energy metabolism of Holstein male calves

Male Holstein calves commonly receive minimal quantities of milk replacer (MR) to speed up weaning and reduce costs. Studies with Holstein female calves show that early life feed restriction affects energy metabolism later in life. Aiming to test this hypothesis, 120 Holstein bull calves (48.4 ± 2.2 kg of BW and 20 ± 3.2 d of age) housed in 24 pens were blocked and randomized to two treatments: A low calf MR allowance (LP) (two daily doses of 2 l each, 582 g/d of DM), or a high MR allowance (HP) (two daily meals of 4 l each, 1 164 g/d of DM). Calves were weaned at day 49 of the study and slaughtered at 32.8 ± 0.5 weeks of age. Throughout the study, animals had ad libitum access to a common compound feed, straw, and water. Twenty-four animals were randomly selected for an intravenous glucose tolerance test (IVGTT). The IVGTT was performed at week 6 and 12 of the study and consisted of an intravenous glucose infusion and sequential blood sampling up to 90 min after glucose infusions. Calves were heavier for HP until week 12, after which the difference disappeared. By design, the MR intake was higher in the HP group resulting in a higher energy intake and a higher average daily gain in the preweaning phase. Blood glucose curves were not different at week 6, but at week 12, 5 min after the infusion, glucose was higher in HP calves. Insulin curves were not different at week 6. Nevertheless, in week 12, a higher insulin concentration was observed for HP 5, 10, 15, 20, 30, 35, and 45 min’ postinfusion, indicating a higher requirement of insulin to control glycemia. Differences between HP and LP calves were also observed for the quantitative insulin sensitivity check index, maximum insulin concentration, and insulin delta at week 12. Blood glucose reached maximum concentration within 5–10 min of the IVGTT test, and the concentration was, on average, 8.58 and 10.80 mmol/l at weeks 6 and 12, respectively. Insulin reached maximum concentration within 10–15 min of the IVGTT, and concentrations were, on average, 33.32 and 32.61 μUI/ml at weeks 6 and 12, respectively. Doubling MR supply improved animal growth up to weaning, but these differences disappeared by the end of the feeding period. Despite similar responses to glucose infusions preweaning, higher milk supply seemed to decrease insulin sensitivity after weaning.     

胰岛素对糖尿病大鼠代谢紊乱的调节作用

利用四氧嘧啶建立糖尿病大鼠模型,研究了胰岛素对糖尿病大鼠脂肪、蛋白质、自由基代谢紊乱的调节作用及对机体和肝脏氧化损伤的保护作用。结果表明,胰岛素0．5U/kg皮下注射8周,能明显抑制糖尿病引起大鼠体重的降低。皮下注射6周,显著提高了血清总蛋白、白蛋白、总胆固醇的水平,降低了血清甘油三酯的含量。胰岛素1U／kg皮下注射9d,能显著提高血清超氧化物歧化酶、谷肮甘肽过氧化物酶的活性,降低血清丙二醛的含量及促氧化酶黄嘌呤氧化酶的活性,提高肝线粒体谷胱甘肽过氧化物酶的活性,降低肝线粒体丙二醛的含量。从而调节糖尿病大鼠脂肪、蛋白质、自由基代谢紊乱,减轻机体的氧化损伤,改善肝功能。     

Recombinant DNA derived monomeric insulin analogue: comparison with soluble human insulin in normal subjects.

OBJECTIVE--To compare the rate of absorption from subcutaneous tissue and the resulting hypoglycaemic effect of iodine-125 labelled soluble human insulin and a monomeric insulin analogue derived by recombinant DNA technology. DESIGN--Single blind randomised comparison of equimolar doses of 125I labelled soluble human insulin and insulin analogue. SETTING--Study in normal people at a diabetes research unit and a university department of medical physics. SUBJECTS--Seven healthy male volunteers aged 20-39 not receiving any other drugs. INTERVENTIONS--After an overnight fast and a basal period of one hour two doses (0.05 and 0.1 U/kg) of 125I labelled soluble human insulin and insulin analogue were injected subcutaneously into the anterior abdominal wall on four separate days. END POINT--To find a fast acting insulin for meal related requirements in insulin dependent diabetics. MEASUREMENTS and main results--Residual radioactivity at the injection site was measured continuously for the first two hours after injection of the 125I labelled preparations and thereafter for five minutes simultaneously with blood sampling. Frequent venous blood samples were obtained over six hours for determination of plasma immunoreactive insulin, insulin analogue, glucose, and glucagon values. Time to 50% of initial radioactivity at the injection site for the insulin analogue compared with soluble insulin was 61 v 135 minutes (p less than 0.05) with 0.05 U/kg and 67 v 145 minutes (p less than 0.001) with 0.1 U/kg. Concentrations in plasma increased faster after the insulin analogue compared with soluble insulin, resulting in higher plasma concentrations between 10 and 150 minutes (0.001 less than p less than 0.05) after 0.05 U/kg and between 40 and 360 minutes (0.001 less than p less than 0.05) after 0.1 U/kg. The hypoglycaemic response to insulin analogue was a plasma glucose nadir at 60 minutes with both doses compared with 90 and 120 minutes with soluble insulin at 0.5 and 0.1 U/kg respectively. The response of glucagon substantiated the earlier and more dramatic hypoglycaemic effect with the insulin analogue. CONCLUSIONS--The much faster absorption from subcutaneous tissue of the disubstituted monomeric insulin analogue compared with soluble insulin suggests that the analogue may be a potential candidate for rapid insulin delivery after subcutaneous bolus injection.     

Effect of L-asparaginase on insulin secretion from isolated rat islets of Langerhans.

The effects of L-asparaginase were evaluated on glucose-induced insulin release from isolated rat islets of Langerhans. Islets were obtained by enzymatic digestion of pancreas from Sprague-Dawley rats. The study of L-asparaginase effects on insulin secretion was performed in a static incubation of islets. Insulin secretion was measured at 60 min of incubation with different secretagogues with and without L-asparaginase. L-Asparaginase at concentrations from 310 to 5,000 U/ml could inhibit the glucose-induced insulin secretion in a dose-dependent manner. This effect was not recovered after incubation in the absence of the drug for another 2 h. The half-maximal inhibitory effect of the enzyme on insulin secretion was observed at L-asparaginase concentrations of 1,000 U/ml. Tolbutamide (200 microM) and ketoisocaproic acid (20 mM) did not induce insulin secretion in the presence of moderately high L-asparaginase concentrations. L-Asparaginase did not inhibit glucose-induced insulin secretion in the presence of isobutyl-methyl-xanthine (IBMX) (20 microM) or forskolin (20 microM). L-Asparaginase promoted a decrease in total c-AMP in isolated rat islets at concentrations from 500 to 1,500 U/ml when they were stimulated by glucose. If islets were treated with IBMX or forskolin, L-asparaginase did not inhibit the glucose-induced total c-AMP levels in islets.     

Stimulation of glucose uptake in skeletal muscle using bolus or continuous insulin delivery

We investigated glucose uptake in the non-cyclically perfused rat hindlimb in response to continuous infusion (CI) or bolus injection (BI) of insulin. Ten mM glucose was infused at 3 ml/min, venous glucose was monitored at two minute intervals, and glucose uptake was calculated on the basis of arteriovenous-difference and expressed as micron/min/100 g body wt. Insulin BI given every ten minutes equaled the amount of insulin given by CI for ten minutes. Insulin doses of 1500, 3000, 6000, and 45,000 microU/30 min showed no significant difference between the two modes of delivery in either onset of stimulation or maximal stimulation of glucose uptake. At the lowest insulin dose tested (1500 microU/30 min) neither BI nor CI stimulated glucose uptake above the control of 1.849 micron/min/100 g. A dose response curve for glucose uptake was obtained using insulin boluses ranging from 2000 to 20,000 microU. Insulin uptake by the muscle was always greater when insulin was administered CI. Net disappearance of immunoreactive insulin over the entire 30 minutes of perfusion was 29.4 +/- 2.6% for CI but only 7.1 +/- 1.6% for BI. Thus in the perfused rat hindlimb, stimulation of glucose uptake in skeletal muscle is comparable with BI and CI delivery of insulin but insulin uptake by the muscle is several-fold greater with CI delivery.     

Inhibition of basal insulin secretion induces insulin resistance in normal man: evidence for a tonic effect of insulin on carbohydrate metabolism

Insulin resistance has been demonstrated both in insulin deficiency and insulin excess in man and in animals. This study was carried out in normal man to evaluate the role of insulinopenia in the pathogenesis of insulin resistance. Insulin suppression was obtained by 4 h somatostatin (SRIF) infusion. Insulin receptors on circulating monocytes were evaluated before and after SRIF infusion; an insulin tolerance test (ITT) was performed after SRIF, saline or SRIF and replacing basal insulin secretion. Insulin binding to circulating monocytes did not change after 4 h insulinopenia (2.19 +/- 0.30 vs. 2.35 +/- 0.80%), while insulin sensitivity appeared decreased after SRIF (KITT = 0.97 +/- 0.13) as compared with saline (KITT = 3.30 +/- 0.42), and this effect was prevented by insulin (KITT = 2.46 +/- 0.38). A relationship was detected between KITT and plasma insulin concentration before ITT (r = 0.85, p less than 0.01), suggesting that insulin deficiency is the main cause of the phenomenon observed. The present data suggest that basal insulin concentration plays an essential role in the control of insulin sensitivity. If insulin binding on monocytes mimics the behavior of major insulin target tissues, it is possible that the impaired insulin action after 4 h of insulin deficiency is related to a post binding effect.     

Management of Hyperglycemia in Diabetic Patients with Hematologic Malignancies During Dexamethasone Therapy

ObjectiveTo compare the response to different insulin regimens for management of hyperglycemia in diabetic patients with hematologic malignancies who are receiving dexamethasone.MethodsA retrospective analysis was conducted to determine whether a basal bolus insulin (BBI) regimen with detemir and aspart is superior to a sliding scale regular insulin (SSI) regimen for management of hyperglycemia in hospitalized diabetic patients receiving dexamethasone.ResultsForty patients with hematologic malignancies were treated with intravenous (8 to 12 mg/day) or oral (40 mg/day) dexamethasone for 3 days. The average blood glucose (BG) level was 301 ± 57 mg/dL in the SSI group (n = 28) and 219 ± 51 mg/dL in the BBI group (n = 12) (P <.001). The BBI regimen resulted in an average BG reduction of 52 ± 82 mg/dL throughout the course of dexa-methasone therapy, while the SSI regimen produced an increase in the mean daily BG level of 128 ± 77 mg/dL (P <.001). On the last day of dexamethasone administration, the insulin requirement was 49 ± 29 units/day in the SSI group and 122 ± 39 units/day in the BBI group (P <.001). Three patients in the SSI group developed diabetic ketoacidosis or hyperosmolar hyperglycemia during steroid therapy. No hypoglycemia was observed in either group. The length of stay and infection rates were similar between groups.ConclusionBasal and bolus insulin regimen is an effective and safe approach for managing dexamethasone-induced hyperglycemia in hospitalized patients with hematologic malignancies. (Endocr Pract. 2013;19:231-235)