Type 2 Diabetes Patients Reach Target Glycemic Control Faster Using IDegLira than Either Insulin Degludec or Liraglutide Given Alone

More patients reach glycaemic control with a fixed-ratio combination of insulin glargine and lixisenatide (iGlarLixi) than with basal insulin at 12 weeks of treatment: A post hoc time-to-control analysis of LixiLan-O and LixiLan-L

The present post hoc analysis of two 30-week clinical trials compared efficacy and hypoglycaemia outcomes at early study visits with iGlarLixi (insulin glargine U100 [iGlar] and lixisenatide) vs iGlar alone in patients with type 2 diabetes (T2D) uncontrolled on oral antidiabetic drugs (OADs; LixiLan-O trial) or basal insulin (LixiLan-L trial). Time to control, defined as days to achieve glycated haemoglobin (HbA1c) <53 mmol/mol (<7%) or fasting plasma glucose (FPG) ≤7.2 mmol/L, was estimated using the Kaplan-Meier method. In the LixiLan-O and LixiLan-L trials, 60% and 46% of patients, respectively, reached HbA1c <53 mmol/mol (<7%) with iGlarLixi at 12 weeks, vs 45% and 24%, respectively, with iGlar. In the LixiLan-O trial, the median time to target HbA1c was approximately half with iGlarLixi vs iGlar (85.0 vs 166.0 days; P < .0001). In the LixiLan-L trial, the median time to target HbA1c was 153.0 days with iGlarLixi, while target HbA1c was never reached by 50% of patients with iGlar (P < .0001). Time-to-target FPG and hypoglycaemia outcomes were similar between treatments. In T2D uncontrolled on OADs or basal insulin, iGlarLixi resulted in glycaemic control in more patients than did iGlar at early treatment time points.

Safety and Efficacy of Insulin Degludec/Liraglutide (IDegLira) and Insulin Glargine U100/Lixisenatide (iGlarLixi), Two Novel Co-Formulations of a Basal Insulin and a Glucagon-Like Peptide-1 Receptor Agonist, in Patients With Diabetes Not Adequately Controlled on Oral Antidiabetic Medications

IN BRIEF Novel co-formulations of basal insulin analogs and glucagon-like peptide-1 (GLP-1) receptor agonists have provided new options for patients with type 2 diabetes who are not reaching recommended glycemic targets. The components of currently available co-formulations (insulin degludec/ liraglutide [IDegLira,] and insulin glargine U100/lixisenatide [iGlarLixi]) act synergistically to address multiple pathophysiologic defects while minimizing the side effects associated with either component when used alone. In Europe, these products are approved for use in patients on regimens of one or more oral antidiabetic drugs; in the United States, they are indicated for use as an adjunct to diet and exercise in patients with type 2 diabetes inadequately controlled with either basal insulin or their respective GLP-1 receptor agonist component. This article reviews key clinical trials in which these products were initiated in insulin-naive patients and describes how they can be safely and effectively titrated in clinical practice.

Insulin Degludec/Liraglutide

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The Clinical Use of a Fixed-Dose Combination of Insulin Degludec and Liraglutide (Xultophy 100/3.6) for the Treatment of Type 2 Diabetes

Objective: To review the pharmacology, pharmacokinetics, efficacy, and safety of the fixed-dose combination of insulin degludec and the glucagon-like peptide-I receptor agonist (GLP-1 RA), liraglutide (IDegLira) in the treatment of type 2 diabetes mellitus (T2DM). Data Sources: A PubMed and MEDLINE search (1966 to July 2017) of the keywords insulin degludec, liraglutide, and type 2 diabetes mellitus was conducted. References were reviewed to identify additional citations. Study Selection and Data Extraction: Articles written in English were included if they evaluated the pharmacokinetics, pharmacology, clinical efficacy, or safety of IDegLira in humans. Data Synthesis: IDegLira displayed pharmacokinetic and pharmacodynamic properties similar to that of the individual components. IDegLira has shown significant hemoglobin A1C (A1C) reductions of 1.3% to 1.9% and fasting plasma glucose reductions of 45 to 65 mg/dL when used in patients with T2DM previously receiving oral antihyperglycemic agents (AHAs), GLP-1 RAs, or basal insulin. Weight loss also occurred when IDegLira was started in patients previously receiving oral AHAs or basal insulin. Adverse effects (AEs) tended to be mild and transient. The most common AEs were headache, nasopharyngitis, upper-respiratory infections, and gastrointestinal disorders. Hypoglycemia risk was lower with IDegLira than basal insulin alone but higher than liraglutide alone. Conclusions: IDegLira may provide additional glycemic control with fewer AEs for patients uncontrolled on a GLP-RA or basal insulin alone. Additional studies evaluating use in patients on oral AHAs with higher A1C values and in comparison to bolus insulin are needed.

The albumin-exendin-4 recombinant protein E2HSA improves glycemic control and β-cell function in spontaneous diabetic KKAy mice

BACKGROUND

E2HSA is a genetic fusion protein that consists of two tandem exendin-4 molecules that are covalently bonded to recombinant human serum albumin via a peptide linker. Previous studies have demonstrated that E2HSA significantly decreased blood glucose levels, improved β-cell function and promoted β-cell proliferation in diabetic db/dB mice. This study aimed to evaluate the benefits of E2HSA on glucose and lipid metabolism in a spontaneous diabetes animal model, KKAy mice.

METHODS

E2HSA was acutely administered at doses of 1, 3 and 9 mg/kg by subcutaneous injection in diabetic KKAy mice with exendin-4 (2 μg/kg) as a positive reference, and then the non-fasting blood glucose and food intake levels were dynamically monitored. In addition, different doses of E2HSA were injected once daily, as well as with exendin-4 twice daily, for 7 weeks to evaluate the effect on glucose and lipid metabolism, as well as the body weight, food and water intake.

RESULTS

Single injection of E2HSA decreased non-fasting blood glucose and food intake levels in a dose-dependent manner for 4 days and 2 days, respectively. Repeated injections with E2HSA significantly decreased variations in blood glucose levels with a reduction of HbA1c levels by 1.6% at a 9 mg/kg dose, simultaneously increased fasting blood insulin levels, inhibited fasting blood glucagon levels, improved the impaired oral glucose tolerance and enhanced glucose infusion rate, which is the gold standard for evaluating β-cell function. Moreover, repeated injections with E2HSA also ameliorated the dyslipidemia and reduced body weight, food and water intake in diabetic KKAy mice.

CONCLUSIONS

E2HSA significantly reduced blood glucose levels over a prolonged duration, enhanced β-cell function, and ameliorated dyslipidemia and obesity in diabetic KKAy mice. Thus, E2HSA may be a new candidate for the treatment of type 2 diabetes.

The Role of Glucagon-like Peptide-1 Receptor Agonists in the Treatment of Type 2 Diabetes

The role of GLP-1 agonists in the treatment of type 2 diabetes have been shown to be viable options for add-on therapy in diabetic patients, as well as potential monotherapy options. With six available GLP-1 agents, and new combination products in the pipeline, they are a promising drug class for type 2 diabetic patients, especially due to their extended dosing interval and potential weight loss benefits.

Glycemic Control in a Real-Life Setting in Patients with Type 2 Diabetes Treated with IDegLira at a Single Swiss Center

INTRODUCTION

The aim of the present study was to describe clinical outcomes in a real-world population of Swiss patients with long-standing, poorly controlled type 2 diabetes after switching to IDegLira [a combination of insulin degludec (IDeg) and liraglutide (Lira)].

METHODS

This was a prospective, open-label, single-center observational follow-up at the Cabinet Medical de Diabétologie, Lausanne, Switzerland, of 61 patients [HbA_1c 9.2% (77 mmol/mol) and 56.1 U total insulin] initiated with IDegLira at 20 dose steps (20 U IDeg/0.72 mg Lira), except in insulin-naïve patients who began treatment at 16 dose steps. Thereafter, the dose was titrated by four dose steps once weekly, according to individualized fasting blood glucose targets. Information about glycemic control, total insulin dose, weight, and blood pressure, along with any adverse events, was collected from medical records and patient reports during clinic visits at baseline, 3 months, and end of follow-up.

RESULTS

Over 6 months of follow-up, mean HbA_1c improved (decrease of 1.7%) to 7.5% with concomitant weight loss. Switching to IDegLira resulted in a lower (-14.6 U) total insulin dose compared with baseline for those patients previously on insulin. There were no episodes of severe hypoglycemia during treatment with IDegLira. There were small decreases in both mean systolic and mean diastolic blood pressure with IDegLira. Six patients discontinued treatment early because of adverse gastrointestinal events with IDegLira.

CONCLUSION

Switching to IDegLira, mostly from regimens using insulin in conjunction with oral antidiabetic medications in a real-world population of patients with type 2 diabetes, resulted in improved glucose control with a lower insulin dose and weight loss.