UMLS:C0011854 - FACTA Search

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Query: UMLS:C0011854 (type 1 diabetes)
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Individuals with insulin-dependent diabetes mellitus (IDDM or type 1 diabetes) are deficient in both insulin and amylin, peptides secreted by the beta cell. We have investigated the effects of amylin replacement therapy employing the human amylin analogue, pramlintide (25, 28, 29-pro-human amylin, previously referred to as AC137), upon the responses to a standardized insulin infusion (40 mU. kg-1. h-1) for 100 min and a liquid Sustacal meal (360 kcal) in 84 healthy IDDM patients. Following baseline evaluations, patients were randomly assigned to receive subcutaneous injections of placebo, 30, 100 or 300 micrograms pramlintide 30 min before meals for 14 days. There was no meaningful difference between adverse events reported by the 30-micrograms pramlintide and the placebo groups, but ten subjects withdrew due to nausea, eight of these in the 300-micrograms dose group. Peak plasma pramlintide concentrations for the 30-micrograms group were 21 +/- 3 and 29 +/- 5 pmol/l on Days 1 and 14, respectively. These values are similar to postprandial plasma amylin concentrations in normal volunteers. The plasma glucose, free insulin, glucagon, epinephrine and norepinephrine concentrations during the insulin infusion test before and after therapy were identical in each of the group. Prior to pramlintide therapy, Sustacal ingestion produced a 4.0-4.8 mmol/l rise in plasma glucose concentrations in each of the groups. Pramlintide therapy reduced postprandial hyperglycaemia as reflected by the 3-h incremental AUCglucose (AUCglucose above or below fasting glucose concentration) Day 1 vs Day 14: 30 micrograms, 322 +/- 92 vs -38 +/- 161 mmol/l.min, p = 0.010; 100 micrograms, 317 +/- 92 vs -39 +/- 76 mmol/l.min, p = 0.001; and 300 micrograms, 268 +/- 96 vs -245 +/- 189 mmol/l.min, p = 0.077. Thus, pramlintide therapy with these regimens did not appear to impair either in vivo insulin action or the counter-regulatory response to hypoglycaemia but did show a clear effect of blunting postprandial hyperglycaemia following a standardized meal.
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PMID:Effect of 14 days' subcutaneous administration of the human amylin analogue, pramlintide (AC137), on an intravenous insulin challenge and response to a standard liquid meal in patients with IDDM. 877 1

To explore further the effects of the human amylin analog pramlintide on overall glycemic control and postprandial responses of circulating glucose, glucagon, and metabolic intermediates in type 1 diabetes mellitus, 14 male type 1 diabetic patients were examined in a double-blind, placebo-controlled, crossover study. Pramlintide (30 microg four times daily) or placebo were administered for 4 weeks, after which a daytime blood profile (8:30 AM to 4:30 PM) was performed. Serum fructosamine was decreased after pramlintide (314+/-14 micromol/L) compared with placebo (350+/-14 micromol/L, P = .008). On the profile day, the mean plasma glucose (8.3+/-0.7 v 10.2+/-0.8 mmol/L, P = .04) and postprandial concentrations (incremental areas under the curve [AUCs] from 0 to 120 minutes) were significantly decreased during pramlintide administration (P < .01 for both) despite comparable circulating insulin levels (359+/-41 v 340+/-35 pmol/L). Mean blood glycerol values were reduced (0.029+/-0.004 v 0.040+/-0.004 mmol/L, P = .01) and blood alanine levels were elevated (0.274+/-0.012 v 0.246+/-0.008 mmol/L, P = .03) after pramlintide versus placebo. Blood lactate concentrations did not differ during the two regimens. During pramlintide administration, the AUC (0 to 120 minutes) for plasma glucagon after breakfast was diminished (P = .02), and a similar trend was observed following lunch. In addition, peak plasma glucagon concentrations 60 minutes after breakfast (45.8+/-7.3 v 72.4+/-8.0 ng/L, P = .005) and lunch (47.6+/-9.0 v 60.9+/-8.2 ng/L, P = .02) were both decreased following pramlintide. These data indicate that pramlintide (30 microg four times daily) is capable of improving metabolic control in type 1 diabetics. This may relate, in part, to suppression of glucagon concentrations. Longer-term studies are required to ascertain whether these findings are sustained over time.
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PMID:The amylin analog pramlintide improves glycemic control and reduces postprandial glucagon concentrations in patients with type 1 diabetes mellitus. 1042 Dec 39

Adis CommentsPramlintide [AC 0137, AC 137, tripro-amylin, Symlin] is a synthetic human amylin analogue with proline substitutions at positions 25, 28 and 29, which limits the self-aggregation seen with native amylin. Pramlintide improves glycaemic control, and appears to reduce postprandial blood glucose peaks and flatten the glucose peaks and troughs observed in diabetic patients. The reduction of hypoglycaemia would be an immediate advantage, and the reduction of hyperglycaemia could potentially prevent diabetic complications. Development - US: Amylin has submitted an NDA in the US for pramlintide acetate (Symlin trade mark ) as an adjunctive therapy for the treatment of type 1 and type 2 diabetes mellitus. However, the FDA's Endocrinologic and Metabolic Drugs Advisory Committee at their meeting on 26 July 2001, voted not to recommend approval of pramlintide for type 1 and type 2 diabetes. Although eight out of nine Committee members were convinced of the potential of pramlintide therapy, the Committee expressed concerns regarding safety issues and requested additional data addressing these concerns. Finally, on 12 October 2001, Amylin received an 'approvable letter' for Symlin- for the treatment of diabetes. In April 2002, Amylin commenced a trial in 250 patients with type 1 diabetes to evaluate the safety issues regarding cases of severe hypoglycaemia with pramlintide in combination with insulin reported in this group of patients. The trial will investigate dose titration in the initial first month of the treatment period combined with insulin adjustment for the optimisation of glucose control. Patients are then treated for 6 months at a steady-state dose of pramlintide or placebo, accompanied by the additional insulin adjustments. Amylin has completed patient enrolment in September 2002. Final approval is subject to satisfactory results from this safety and dose titration study and the four small pharmacology studies already completed or underway. Amylin plans to file an amendment to the pramlintide's NDA in the Q1 of 2003. Development - non-USA: A wholly owned subsidiary of Amylin Pharmaceuticals, Amylin Europe, filed a regulatory submission with the European Agency for Evaluation of Medicinal Products (EMEA) and Switzerland for pramlintide for the treatment of both type 1 and type 2 diabetes under the centralised procedure. Amylin completed pivotal phase III clinical trials with pramlintide acetate (Symlin trade mark ) for the treatment of type 1 and type 2 diabetes mellitus in North America and Europe. However, in October 2002, Amylin announced that following consultation with the Committee for Proprietary Medicinal Products (CPMP) of the EMEA, it has found that additional information is necessary to proceed with review of the MAA for pramlintide for diabetes. Since, the centralised procedure does not allow the adding of new information to the application that is already under review, Amylin has decided to withdraw the MAA for pramlintide. The company will continue discussions with the EMEA to clarify the information required for a resubmission of the application. The submission for pramlintide in Switzerland is currently under review. In a separate phase II programme, Amylin is investigating the use of pramlintide in type 2 diabetes mellitus patients who are not achieving satisfactory results with oral hypoglycaemic agents but who have not progressed to using insulin. Collaborations: Pramlintide was under joint development with Amylin Pharmaceuticals and Johnson and Johnson, as an injectable partner hormone for insulin for the treatment of both type 1 and type 2 diabetes mellitus. The terms of the agreement between Amylin and Johnson and Johnson were that Amylin had primary responsibility for development and regulatory submissions, while Johnson and Johnson had primary responsibility for marketing; development costs and eventual profits were to be shared equally. Later, Johnson and Johnson decided to terminate the collaboration to commercialise pramlintide. An earlier development collaboration betweion between Amylin and Glaxo Wellcome was also discontinued. However, Amylin is in new ongoing discussions with collaborative partners for pramlintide in Europe and Japan. Amylin has signed an agreement with CP Pharmaceuticals in the UK to manufacture pramlintide.
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PMID:Pramlintide: (AC 137, AC 0137, Symlin, Tripro-Amylin). 1253 23

Despite a number of incremental, beneficial improvements in diabetes mellitus therapy over the past few decades, the fundamental challenge of replicating the physiological entry into, and uptake of glucose from, the circulation remains unresolved. Pramlintide is an analogue of the beta-cell hormone amylin that simulates its important glucoregulatory actions. In humans, pramlintide slows gastric emptying and suppresses glucagon secretion during the prandial/postprandial period to slow and reduce the entry of glucose into the circulation. These actions, in conjunction with the glucose cellular uptake function of insulin, help normalise fluctuations in circulating glucose levels to a greater degree than is possible with insulin treatment alone. In clinical studies, pramlintide treatment as an adjunct to insulin decreased glycosylated haemoglobin levels (0.39-0.62%) with a concomitant weight loss (0.5-1.4kg) and no significant increase in severe hypoglycaemia. Pramlintide treatment as a potential adjunct to insulin therapy is in late-stage development for patients with type 1 diabetes and insulin-using patients with type 2 diabetes.
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PMID:Pramlintide for the treatment of insulin-requiring diabetes mellitus: rationale and review of clinical data. 1521 59

Postprandial hyperglycemia and preprandial hypoglycemia contribute to poor glycemic control in type 1 diabetes. We hypothesized that postprandial glycemic excursions could be normalized in type 1 diabetes by suppressing glucagon with pramlintide acetate in the immediate postprandial period and supplementing glucagon in the late postprandial period. A total of 11 control subjects were compared with 8 type 1 diabetic subjects on insulin pump therapy, using the usual insulin bolus-to-carbohydrate ratio during a standard liquid meal. Type 1 diabetic subjects were then randomized to two open-labeled studies. On one occasion, type 1 diabetic subjects received a 60% increase in the insulin bolus-to-carbohydrate ratio with minidose glucagon rescue injections, and on the other occasion type 1 diabetic subjects received 30-45 microg pramlintide with their usual insulin bolus-to-carbohydrate ratio. Glucose, glucagon, amylin (pramlintide), and insulin concentrations were measured for 420 min. The plasma glucose area under the curve (AUC) for 0-420 min was lower in control versus type 1 diabetic subjects (316 +/- 5 vs. 929 +/- 18 mg x h(-1) x dl(-1), P < 0.0001). Pramlintide, but not an increase in insulin, reduced immediate postprandial hyperglycemia (AUC(0-180 min) 470 +/- 43 vs. 434 +/- 48 mg x h(-1) x dl(-1), P < 0.01). Pramlintide administration suppressed glucagon (P < 0.02), and glucagon injections prevented late hypoglycemia with increased insulin. In summary, in type 1 diabetes, glucagon modulation with pramlintide as an adjunct to insulin therapy may prove beneficial in controlling postmeal glycemic swings.
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PMID:The role of amylin and glucagon in the dampening of glycemic excursions in children with type 1 diabetes. 1579 49

Recognizing that type 1 diabetes was characterized not only by insulin deficiency, but also by amylin deficiency, Cooper (Cooper, 1991) predicted that certain features of the disease could be related thereto, and he proposed amylin/insulin co-replacement therapy. Although the early physiological rationale was flawed, the idea that glucose control could be improved over that attainable with insulin alone without invoking the ravages of worsening insulin-induced hypoglycemia was vindicated. The proposal spawned a first-in-class drug development program that ultimately led to marketing approval by the U.S. Food and Drug Administration of the amylinomimetic pramlintide acetate in March 2005. The prescribers' package insert (Amylin Pharmaceuticals Inc., 2005), which includes a synopsis of safety and efficacy of pramlintide, is included as Appendix 1. Pramlintide exhibited a terminal t1/2, in humans of 25-49 min and, like amylin, was cleared mainly by the kidney. The dose-limiting side effect was nausea and, at some doses, vomiting. These side effects usually subsided within the first days to weeks of administration. The principal risk of pramlintide co-therapy was an increased probability of insulin-induced hypoglycemia, especially at the initiation of therapy. This risk could be mitigated by pre-emptive reduction in insulin dose. Pramlintide dosed at 30-60 microg three to four times daily in patients with type 1 diabetes, and at doses of 120 microg twice daily in patients with type 2 diabetes, invoked a glycemic improvement, typically a decrease in HbA1c of 0.4-0.5% relative to placebo, that was sustained for at least 1 year. This change relative to control subjects treated with insulin alone typically was associated with a reduction in body weight and insulin use, and was not associated with an increase in rate of severe hypoglycemia other than at the initiation of therapy. Effects observed in animals, such as slowing of gastric emptying, inhibition of nutrient-stimulated glucagon secretion, and inhibition of food intake, generally have been replicated in humans. A notable exception appears to be induction of muscle glycogenolysis and increase in plasma lactate.
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PMID:Clinical studies. 1649 55

Recent studies in adult patients with type 1 diabetes mellitus (T1DM) and T2DM have examined the potential utility, benefits, and side effects of agents that augment insulin secretion after oral ingestion of nutrients in comparison with intravenous nutrient delivery, the so-called incretins. Two families of incretin-like substances are now approved for use in adults. Glucagon-like peptide-1 (GLP-1) or agents that bind to its receptor (exenatide, Byetta) or agents that inhibit its destruction [dipeptidyl peptidase-IV (DPP-IV) inhibitors, Vildagliptin] improve insulin secretion, delay gastric emptying, and suppress glucagon secretion while decreasing food intake without increasing hypoglycemia. Pramlintide, a synthetic amylin analog, also decreases glucagon secretion and delays gastric emptying, improves hemoglobin A1c (HbA1C), and facilitates weight reduction without causing hypoglycemia. We review the historical discovery of these agents, their physiology [corrected] and their current applications. Remarkably, only one or two studies have been reported in children. Pediatricians caring for children with T1DM and T2DM should become familiar with these agents and investigate their applicability, as they seem likely to enhance our therapeutic armamentarium to treat children with diabetes mellitus.
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PMID:Newer therapeutic options for children with diabetes mellitus: theoretical and practical considerations. 1662 19

Pramlintide is the first new antihyperglycemic agent approved for both type 2 and type 1 diabetes since insulin was developed in the 1920s. It is a synthetic analogue of human amylin, a naturally occurring neuroendocrine hormone synthesized by pancreatic beta cells. Pramlintide helps regulate the rate of glucose appearance and improves glucose control postprandially. This action is accomplished through suppressing inappropriate postprandial glucagon secretion and regulating gastric emptying, and is associated with a feeling of satiety. It is given at mealtimes and is indicated for use in type 2 and type 1 diabetes as an adjunct treatment in patients who use mealtime insulin therapy and who have failed to achieve desired glucose control despite optimal insulin therapy. Pramlintide therapy should only be considered for patients who are receiving ongoing care under the guidance of a health care professional skilled in the use of insulin and supported by services of diabetes educators. Pramlintide is used with insulin and has been associated with an increased risk of insulin-induced severe hypoglycemia, particularly in type 1 diabetes. Appropriate patient selection, careful patient instruction, and insulin dose adjustments help reduce this risk. In type 2 diabetes, pramlintide is initiated at 60 microg and may be increased to 120 microg two to three times daily with meals. In type 1 diabetes, pramlintide is initiated at 15 microg and may be increased to 30 or 60 microg with meals. Mealtime insulin should be reduced by 50% at pramlintide initiation and adjusted as the pramlintide dose is increased. It should be given subcutaneously with an insulin syringe and should not be mixed with insulin. The most commonly reported side effect is mild to moderate nausea with initiation, which is usually transient and short term in nature. Frequent self-monitoring of blood glucose is important during initiation to assist in insulin adjustments. Insulin type, dose, and timing as well as basal/bolus balance may require adjustment during pramlintide initiation. Despite requiring additional injections, patients report satisfaction with pramlintide therapy.
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PMID:Use of pramlintide: the patient's perspective. 1675 52

Amylin is a pancreatic beta-cell hormone that is cosecreted with insulin and plays an important physiologic role in glucose homeostasis. Pramlintide is an analogue of amylin recently approved by the Food and Drug Administration and represents the first new treatment for people with type 1 diabetes since the discovery of insulin more than 80 years ago. Pramlintide has been shown to reduce the day-to-day fluctuations in glucose values that are commonly seen despite maximized insulin therapy alone. Additional proven clinical benefits include flattening of the postprandial glucose values, reducing the A1C, and concomitant weight loss. This combination of benefits makes pramlintide an important therapeutic tool for improving the metabolic control and quality of life of people with type 1 diabetes.
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PMID:Amylin replacement therapy in patients with type 1 diabetes. 1675 53

Pramlintide, an adjunct treatment to mealtime insulin for patients with type 2 and type 1 diabetes, aids glycemic control by suppressing postprandial glucagon secretion, slowing gastric emptying, and enhancing satiety. Because gastric emptying affects oral medication absorption, this placebo-controlled, single-blind, crossover study examined the absorption of 1000 mg of acetaminophen elixir administered -2, -1, 0, +1, and +2 hours relative to pramlintide (120 microg) or 0 hours relative to placebo in 24 patients with type 2 diabetes. When acetaminophen administration occurred 0, +1, or +2 hours relative to pramlintide, the maximum observed plasma concentration of acetaminophen decreased 14% to 29%, and time to maximum observed plasma concentration increased by 0.8 to 1.2 hours compared with administration 0 hours relative to placebo. Pramlintide treatment slowed but did not alter the extent of acetaminophen absorption (area under the concentration-time curve). No serious adverse events or withdrawals were reported. Oral agents should be administered at least 1 hour before or 2 hours after pramlintide injection if rapid onset of action is required for efficacy.
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PMID:Pharmacokinetics of an oral drug (acetaminophen) administered at various times relative to subcutaneous injection of pramlintide in subjects with type 2 diabetes. 1746 19

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