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The Role of the Pharmacist in Managing Type 2 Diabetes with Glucagon-Like Peptide-1 Receptor Agonists as Add-On Therapy.
Meece, J
Advances in therapy. 2017;(3):638-657
Abstract
UNLABELLED The prevalence and associated clinical burden of type 2 diabetes (T2D) is increasing in the USA and other countries. As a consequence, the role of the pharmacist in managing T2D is expanding, and it is becoming increasingly important for pharmacists to have a complete understanding of the disease course and treatment options. Pharmacists have a key role in the use of injectable therapies, including incretin-based treatment with glucagon-like peptide-1 receptor agonists (GLP-1RAs). This article discusses the role of the pharmacist in the management of patients with T2D, particularly with respect to the use of GLP-1RAs to achieve glycemic control. GLP-1RAs are a class of injectable agents used as an adjunct to diet and exercise to improve glycemic control in adults with T2D. GLP-1RAs have been shown to lower glucose levels, slow gastric emptying, enhance satiety, and reduce body weight without increasing the risk of hypoglycemia. GLP-1RAs currently approved in the USA include exenatide twice daily, liraglutide once daily, and albiglutide, dulaglutide, and exenatide once weekly. Pharmacists can work with physicians to help identify patients for whom GLP-1RA therapy is appropriate. In addition, pharmacists can educate patients regarding medication storage, preparation, and injection techniques, glycated hemoglobin (HbA1c) targets, pre- and post-meal blood glucose goals, adverse events and management strategies, and the long-term benefits of reducing HbA1c. As members of the diabetes care team, pharmacists play an important role in improving patient outcomes. FUNDING AstraZeneca.
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Options for prandial glucose management in type 2 diabetes patients using basal insulin: addition of a short-acting GLP-1 analogue versus progression to basal-bolus therapy.
Hirsch, IB, Buse, JB, Leahy, J, McGill, JB, Peters, A, Rodbard, HW, Rubin, RR, Skyler, JS, Verderese, CA, Riddle, MC
Diabetes, obesity & metabolism. 2014;(3):206-14
Abstract
Integrating patient-centered diabetes care and algorithmic medicine poses particular challenges when optimized basal insulin fails to maintain glycaemic control in patients with type 2 diabetes. Multiple entwined physiological, psychosocial and systems barriers to insulin adherence are not easily studied and are not adequately considered in most treatment algorithms. Moreover, the limited number of alternatives to add-on prandial insulin therapy has hindered shared decision-making, a central feature of patient-centered care. This article considers how the addition of a glucagon-like peptide 1 (GLP-1) analogue to basal insulin may provide new opportunities at this stage of treatment, especially for patients concerned about weight gain and risk of hypoglycaemia. A flexible framework for patient-clinician discussions is presented to encourage development of decision-support tools applicable to both specialty and primary care practice.
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Combination therapy with GLP-1 receptor agonists and basal insulin: a systematic review of the literature.
Balena, R, Hensley, IE, Miller, S, Barnett, AH
Diabetes, obesity & metabolism. 2013;(6):485-502
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Abstract
Treatment algorithms for type 2 diabetes call for intensification of therapy over time as the disease progresses and glycaemic control worsens. If diet, exercise and oral antihyperglycaemic medications (OAMs) fail to maintain glycaemic control then basal insulin is added and ultimately prandial insulin may be required. However, such an intensification strategy carries risk of increased hypoglycaemia and weight gain, both of which are associated with worse long-term outcomes. An alternative strategy is to intensify therapy by the addition of a short-acting glucagon-like peptide-1 receptor agonist (GLP-1 RA) rather than prandial insulin. Short-acting GLP-1 RAs such as exenatide twice daily are particularly effective at reducing postprandial glucose while basal insulin has a greater effect on fasting glucose, providing a physiological rationale for this complementary approach. This review analyzes the latest randomized controlled clinical trials of insulin/GLP-1 RA combination therapy and examines results from 'real-world' use of the combinations as reported through observational and clinical practice studies. The most common finding across all types of studies was that combination therapy improved glycaemic control without weight gain or an increased risk of hypoglycaemia. Many studies reported weight loss and a reduction in insulin use when a GLP-1 RA was added to existing insulin therapy. Overall, the relative degree of benefit to glycaemic control and weight was influenced by the insulin titration employed in conjunction with the GLP-1 RA. The greatest glycaemic benefits were observed in studies with structured titration of insulin to glycaemic targets while the greatest weight benefits were observed in studies with a protocol-specified focus on insulin sparing. The adverse event profile of GLP-1 RAs in the reviewed trials was similar to that reported with GLP-1 RAs as monotherapy or in combination with OAMs with gastrointestinal events being the most commonly reported.
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GLP-1 based therapies: differential effects on fasting and postprandial glucose.
Fineman, MS, Cirincione, BB, Maggs, D, Diamant, M
Diabetes, obesity & metabolism. 2012;(8):675-88
Abstract
Glucagon-like peptide-1 (GLP-1), a gut-derived hormone secreted in response to nutrients, has several glucose and weight regulating actions including enhancement of glucose-stimulated insulin secretion, suppression of glucagon secretion, slowing of gastric emptying and reduction in food intake. Because of these multiple effects, the GLP-1 receptor system has become an attractive target for type 2 diabetes therapies. However, GLP-1 has significant limitations as a therapeutic due to its rapid degradation (plasma half-life of 1-2 min) by dipeptidyl peptidase-4 (DPP-4). Two main classes of GLP-1-mediated therapies are now in use: DPP-4 inhibitors that reduce the degradation of GLP-1 and DPP-4-resistant GLP-1 receptor (GLP-1R) agonists. The GLP-1R agonists can be further divided into short- and long-acting formulations which have differential effects on their mechanisms of action, ultimately resulting in differential effects on their fasting and postprandial glucose lowering potential. This review summarizes the similarities and differences among DPP-4 inhibitors, short-acting GLP-1R agonists and long-acting GLP-1R agonists. We propose that these different GLP-1-mediated therapies are all necessary tools for the treatment of type 2 diabetes and that the choice of which one to use should depend on the specific needs of the patient. This is analogous to the current use of modern insulins, as short-, intermediate- and long-acting versions are all used to optimize the 24-h plasma glucose profile as needed. Given that GLP-1-mediated therapies have advantages over insulins in terms of hypoglycaemic risk and weight gain, optimized use of these compounds could represent a significant paradigm shift for the treatment of type 2 diabetes.
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Exenatide: a review from pharmacology to clinical practice.
Gentilella, R, Bianchi, C, Rossi, A, Rotella, CM
Diabetes, obesity & metabolism. 2009;(6):544-56
Abstract
BACKGROUND Exenatide is an incretin mimetic that activates glucagon-like-peptide-1 receptors. It blunts the postprandial rise of plasma glucose by increasing glucose-dependent insulin secretion, suppressing inappropriately high glucagon secretion and delaying gastric emptying. METHODS In seven clinical trials performed in 2845 adult patients with type 2 diabetes mellitus who were inadequately controlled by a sulphonylurea and/or metformin (glycosylated haemoglobin, HbA1c RESULTS AND CONCLUSIONS Exenatide is a new, promising therapeutic option for type 2 diabetic patients inadequately controlled by oral agents, before insulin therapy, offering the added benefits of body weight reduction and tight postprandial glucose control.
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Exenatide: its position in the treatment of type 2 diabetes.
Guerci, B, Martin, CS
Annales d'endocrinologie. 2008;(3):201-9
Abstract
Type 2 diabetic patients who have not achieved adequate glucose control at the maximum tolerated doses of their oral therapies currently have no alternative other than insulin. A new approach has been developed, using the glucoregulatory properties of the intestinal incretin hormone glucagon-like peptide-1 (GLP-1). This has resulted in the development of a new therapeutic class, the incretin mimetics, of which exenatide is the first to have been approved. Exenatide can bind to the endogenous receptors of GLP-1 and mimic its glucoregulatory actions. It improves glycemic control by acting on the key organs involved in glucose homeostasis: it stimulates insulin secretion and suppresses glucagon secretion in a glucose-dependent way, slows gastric emptying and reduces food intake. It consequently produces significant reductions in fasting and postprandial hyperglycemia. Various clinical studies, both versus placebo and versus insulin, have shown a significant decrease in HbA1c levels (of about 1%), accompanied by weight loss, in patients treated with exenatide. Exenatide efficacy is sustained and all the studies have shown a comparable tolerance profile. The most frequently reported adverse effects were nausea and hypoglycemia when the patient received concomitant sulfonylurea therapy. The aim of this article is to summarize main clinical data on exenatide and to discuss its position in current therapeutic strategy.
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Exenatide and rimonabant: new treatments that may be useful in the management of diabetes and obesity.
Green, JB, Feinglos, MN
Current diabetes reports. 2007;(5):369-75
Abstract
Diabetes mellitus and obesity have become increasingly prevalent problems worldwide. Unfortunately, with traditionally prescribed glucose-lowering medications most individuals with diagnosed diabetes do not achieve and maintain adequate glycemic control over time; it may be even more challenging to lower blood glucose to an appropriate level without inducing a significant associated weight gain. Exenatide and rimonabant are recently developed agents that have demonstrated benefit in both glucose lowering and reduction of body weight. These medications may well prove to be attractive alternatives or additions to our more established diabetes therapies; however, these drugs have a side-effect profile that may limit their applicability to certain populations.
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Management of Type 2 diabetes: the role of incretin mimetics.
Stonehouse, AH, Holcombe, JH, Kendall, DM
Expert opinion on pharmacotherapy. 2006;(15):2095-105
Abstract
Type 2 diabetes is characterised by insulin resistance and progressive beta-cell dysfunction (which leads to hyperglycaemia), the risk of progressive worsening of glycaemic control and an increased risk of both macrovascular and microvascular complications. Existing treatment strategies target deficient insulin secretion and insulin resistance, but do not generally address the underlying progressive beta-cell dysfunction that is common to Type 2 diabetes. Traditionally, Type 2 diabetes is first treated with medical nutrition therapy (reduced food intake and increased physical activity), followed by stepwise addition of oral antidiabetes therapies and, ultimately, exogenous insulin, as required. Unfortunately, these approaches have not been shown to delay the need for additional therapies, nor do they generally prevent or delay the inexorable decline in beta-cell function. Patients with Type 2 diabetes commonly experience deterioration in glycaemic control, and may have substantial weight gain due to the diabetes therapies that contribute to worsening obesity. In addition, insulin-providing therapies, such as sulfonylureas and exogenous insulin, carry the risk of hypoglycaemia, and cannot fully address the complex hormonal irregularities that characterise Type 2 diabetes, including the role of glucagon hypersecretion. New therapeutic approaches are being developed that couple durable glycaemic control with improved control of body weight. These approaches include development of the incretin mimetics, which are a novel class of agents that share several of the glucoregulatory effects of incretin hormones, such as glucagon-like hormone-1. Deficiency of glucagon-like hormone-1 secretion is known to be present in those with abnormal glucose tolerance. Agents that manipulate the physiological actions of incretin hormones, such as glucagon-like hormone-1, may significantly benefit patients with Type 2 diabetes.
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Exenatide: an incretin mimetic for the treatment of type 2 diabetes mellitus.
Iltz, JL, Baker, DE, Setter, SM, Keith Campbell, R
Clinical therapeutics. 2006;(5):652-65
Abstract
BACKGROUND Exenatide is a subcutaneously injected incretin mimetic. It is indicated as adjunctive therapy to improve glycemic control in patients with type 2 diabetes mellitus (T2DM) who are already receiving therapy with metformin, a sulfonylurea, or both but continue to have suboptimal glycemic control. OBJECTIVE This article reviews available information on the clinical pharmacology, comparative efficacy, tolerability, drug interactions, contraindications and precautions, dosage and administration, availability and storage, and cost of exenatide. METHODS MEDLINE (1966-April 2006) and Web of Science (1995-April 2006) were searched for original research and review articles published in the English language. The search terms used were exenatide, exendin-4, glucagon-Like peptide-1, GLP-1, and incretin mimetic. The reference lists of identified articles were also consulted, as was selected information from the package insert for exenatide. All relevant comparative efficacy studies that were available in published form were included in the review. RESULTS Naturally occurring incretins, such as glucagon-like peptide-1 (GLP-1), exhibit insulinotropic properties after release into the circulation from the gut. As a GLP-1 agonist, exenatide improves glucose homeostasis by mimicking the actions of naturally occurring GLP-1. It improves glycemic control by reducing fasting and postprandial glucose concentrations through a combination of known mechanisms, including glucose-dependent insulin secretion, restoration of first-phase insulin response, regulation of glucagon secretion, delaying gastric emptying, and decreasing food intake. Three Phase III comparative efficacy trials were identified that enrolled a total of 1,446 patients who received exenatide 5 pg SC BID, exenatide 10 mug SC BID, or placebo for 30 weeks in addition to their existing therapy with metformin, sulfonylurea, or both. In these trials, the addition of exenatide was associated with significant reductions in glycosylated hemoglobin (HbA(1c)) values (P < 0.001-P < 0.002), greater proportions of patients achieving an HbA(1c) 10% of patients receiving exenatide were hypoglycemia (19.6%), diarrhea (12.8%), and vomiting (12.8%). CONCLUSIONS During clinical trials, exenatide added to existing metformin and/or sulfonylurea therapy in patients with T2DM reduced fasting and postprandial glucose concentrations, with improvements in HbA(1c) and modest weight loss. The main adverse effect associated with exenatide therapy was nausea.