Investigational new insulin glargine 300 U/ml has the same metabolism as insulin glargine 100 U/ml

A Steinstraesser, R Schmidt, K Bergmann, R Dahmen, R H A Becker, A Steinstraesser, R Schmidt, K Bergmann, R Dahmen, R H A Becker

Abstract

Insulin glargine is processed in vivo into soluble 21(A) -Gly-human insulin (M1), the principal moiety responsible for metabolic effects, and subsequently into M2. This sub-study compared metabolism and metabolite pharmacokinetic (PK) profiles of investigational new insulin glargine U300 (Gla-300) with insulin glargine 100 U/ml (Gla-100, Lantus®, Sanofi-Aventis Deutschland GmbH, Frankfurt am Main, Germany) in people with type 1 diabetes. Participants received 0.4 (n = 18) or 0.6 U/kg Gla-300 (n = 12), and 0.4 U/kg Gla-100 (n = 30) once daily in randomized order for 8 days prior to a 36-h euglycaemic clamp. Metabolites were quantified using immunoaffinity enrichment and liquid chromatography tandem mass spectrometry (LC-MS/MS). Glargine metabolism was the same regardless of Gla-100 or Gla-300 administration; M1 was confirmed as the principal active moiety circulating in blood. Steady state concentrations of M1 were achieved after 2 days for Gla-100, and 4 days for Gla-300. Steady state M1 values defined prolonged and even flatter PK profiles after Gla-300 administration compared with M1 profiles after Gla-100.

Keywords: insulin analogues; pharmacokinetics; type 1 diabetes.

© 2014 The Authors. Diabetes, Obesity and Metabolism published by John Wiley & Sons Ltd.

Figures

Figure 1
Figure 1
Cumulative exposure to M0, M1 and M2 in individual participants at steady state, assessed as the area under the insulin concentration time curve from time zero to 36 h post-dosing (M0-M1-M2-AUC0–36), by treatment group.
Figure 2
Figure 2
Median trough levels of M1 with an exponential regression of the data. Vertical dashed lines denote the time at which 90% of the plateau is achieved. For convenience, in this figure, the two Gla-100 reference groups are combined as a weighted average of the medians.

References

    1. Inzucchi SE, Bergenstal RM, Buse JB, et al. Management of hyperglycaemia in type 2 diabetes: a patient-centered approach. Position statement of the American Diabetes Association (ADA) and the European Association for the Study of Diabetes (EASD) Diabetologia. 2012;55:1577–1596.
    1. Dahmen R, Bergmann K, Lehmann A, et al. New insulin glargine U300 formulation evens and prolongs steady state PK and PD profiles during euglycemic clamp in patients with type 1 diabetes (T1DM) [abstract] Diabetes. 2013;62(Suppl. 2):A29.
    1. Monti LD, Poma R, Caumo A, et al. Intravenous infusion of diarginylinsulin, an insulin analogue: effects on glucose turnover and lipid levels in insulin-treated type II diabetic patients. Metabolism. 1992;41:540–544.
    1. Kuerzel GU, Shukla U, Scholtz HE, et al. Biotransformation of insulin glargine after subcutaneous injection in healthy subjects. Curr Med Res Opin. 2003;19:34–40.
    1. Bolli GB, Hahn AD, Schmidt R, et al. Plasma exposure to insulin glargine and its metabolites M1 and M2 after subcutaneous injection of therapeutic and supratherapeutic doses of glargine in subjects with type 1 diabetes. Diabetes Care. 2012;35:2626–2630.
    1. Lucidi P, Porcellati F, Rossetti P, et al. Pharmacokinetics and pharmacodynamics of therapeutic doses of basal insulins NPH, glargine, and detemir after 1 week of daily administration at bedtime in type 2 diabetic subjects: a randomized cross-over study. Diabetes Care. 2011;34:1312–1314.
    1. Sommerfeld MR, Muller G, Tschank G, et al. In vitro metabolic and mitogenic signaling of insulin glargine and its metabolites. PLoS One. 2010;5:e9540.
    1. Expert committee on the diagnosis and classification of diabetes mellitus. Report of the expert committee on the diagnosis and classification of diabetes mellitus. Diabetes Care. 21(Suppl. 1):S5–S19.
    1. Hauck WW, Tozer TN, Anderson S, Bois FY. Considerations in the attainment of steady state: aggregate vs. individual assessment. Pharm Res. 1998–1998;15:1796–1798.
    1. Gerstein HC, Bosch J, Dagenais GR, et al. Basal insulin and cardiovascular and other outcomes in dysglycemia. N Engl J Med. 2012;367:319–328.
    1. Fagot JP, Blotiere PO, Ricordeau P, Weill A, Alla F, Allemand H. Does insulin glargine increase the risk of cancer compared with other basal insulins?: A French nationwide cohort study based on national administrative databases. Diabetes Care. 2013;36:294–301.
    1. Grimaldi-Bensouda L, Cameron D, Marty M, et al. Risk of breast cancer by individual insulin use: an international multicenter study. Diabetes Care. 2014;37:134–143.

Source: PubMed

Sponsorer og samarbeidspartnere

Medisinsk tilstand

Legemiddelintervensjoner

3
Abonnere