In early type 2 diabetes, the strategy of “induction” with short-term intensive insulin therapy followed by “maintenance” with metformin can stabilize pancreatic beta-cell function in some patients but not others. We thus sought to elucidate determinants of sustained stabilization of beta-cell function. In this secondary analysis of ClinicalTrials.Gov NCT02192424, adults with ≤5-years diabetes duration were randomized to 3-weeks induction insulin therapy (glargine/lispro) followed by metformin maintenance either with or without intermittent 2-week courses of insulin every 3-months for 2-years. Sustained stabilization (higher beta-cell function at 2-years than at baseline) was achieved in 55 of 99 participants. Independent predictors of sustained stabilization were the change in beta-cell function during induction and changes in hepatic insulin resistance and alanine aminotransferase during maintenance. Thus, initial reversibility of beta-cell dysfunction during induction and subsequent preservation of hepatic insulin sensitivity during maintenance are associated with sustained stabilization of beta-cell function following short-term insulin and metformin.ClinicalTrials.Gov NCT02192424
Objective Basal insulin glargine has a neutral effect on cardiovascular risk in type 2 diabetes (T2DM). In practice, basal insulin is often paired with a glucagon-like peptide-1 receptor agonist (GLP1-RA) or meal insulin; however, the cardiovascular implications of these combinations have not been fully elucidated. In this context, we sought to evaluate the vascular function effects of adding the GLP1-RA exenatide or meal insulin lispro to basal glargine therapy in early T2DM. Methods In this 20-week trial, adults with T2DM of < 7-years duration were randomized to 8-weeks treatment with (i) insulin glargine (Glar), (ii) glargine + thrice-daily lispro (Glar/Lispro), or (iii) glargine + twice-daily exenatide (Glar/Exenatide), followed by 12-weeks washout. At baseline, 8-weeks, and washout, fasting endothelial function was assessed with reactive hyperemia index (RHI) measurement by peripheral arterial tonometry. Results At baseline, there were no differences in blood pressure (BP), heart rate (HR) or RHI between participants randomized to Glar (n = 24), Glar/Lispro (n = 24), and Glar/Exenatide (n = 25). At 8-weeks, Glar/Exenatide decreased systolic BP (mean − 8.1 mmHg [95%CI − 13.9 to − 2.4], p = 0.008) and diastolic BP (mean − 5.1 mmHg [− 9.0 to − 1.3], p = 0.012) compared to baseline, with no significant changes in HR or RHI. Notably, baseline-adjusted RHI (mean ± SE) did not differ between the groups at 8-weeks (Glar 2.07 ± 0.10; Glar/Lispro 2.00 ± 0.10; Glar/Exenatide 1.81 ± 0.10; p = 0.19), nor did baseline-adjusted BP or HR. There were no differences between the groups in baseline-adjusted RHI, BP or HR after 12-weeks washout. Conclusion Adding either exenatide or lispro to basal insulin therapy does not appear to affect fasting endothelial function in early T2DM. Trial Registration: ClinicalTrials.Gov NCT02194595.
Short-term treatment with insulin can induce remission of type 2 diabetes (T2DM) in some patients but not others. We thus sought to identify baseline predictors of diabetes remission in response to short-term insulin-based therapy. In this study, adult patients with T2DM of <7 years duration were randomized to 8-weeks treatment with (i) insulin glargine, (ii) glargine + thrice-daily lispro, or (iii) glargine + twice-daily exenatide, followed by 12-weeks washout that enabled assessment of remission (defined as A1c<6.5% after ≥3 months without glucose-lowering therapy). At baseline, 8-weeks, and washout, beta-cell function was assessed with 4 measures: Insulin Secretion-Sensitivity Index-2 (ISSI-2), insulinogenic index/HOMA-IR, ΔCpeptide0-120/Δglucose0-120×Matsuda, and ΔISR0-120/Δgluc0-120×Matsuda. Diabetes remission was achieved in 31 of 90 participants (34.4%). Compared to their peers, those who went on to remission had lower A1c (p<0.001) and better beta-cell function at baseline (all 4 measures p≤0.01). The non-remission and remission groups did not otherwise differ in baseline insulin sensitivity/resistance (Matsuda, HOMA-IR), BMI, duration of diabetes, pre-trial diabetes medications, or allocated insulin-based therapy during the trial. On logistic regression analyses, each baseline measure of beta-cell function emerged as a significant predictor of remission (log ISSI-2: adjusted OR 4.41 (95%CI: 1.71-11.34); log insulinogenic index/HOMA-IR: 2.21 (1.26-3.89); log ΔCpeptide0-120/Δglucose0-120×Matsuda: 1.62 (1.00-2.64); log ΔISR0-120/Δgluc0-120×Matsuda: 1.87 (1.09-3.23). Similarly, higher baseline ISSI-2 tertile predicted longer time to glycemic relapse after cessation of the insulin-based therapy (log-rank P=0.029). In conclusion, beta-cell function is the dominant baseline determinant of the likelihood of achieving remission of diabetes in response to short-term insulin-based therapy. Disclosure R.Retnakaran: Other Relationship; Sanofi, Eli Lilly and Company, Research Support; Boehringer Ingelheim/Mount Sinai Hospital, Novo Nordisk. J.Pu: None. A.Emery: None. C.K.Kramer: Research Support; Boehringer Ingelheim Inc. B.Zinman: Consultant; Abbott Diabetes, Eli Lilly and Company, Novo Nordisk A/S, Novo Nordisk Canada Inc., Boehringer Ingelheim Inc., Merck & Co., Inc. Funding Canadian Institutes of Health Research (MOP136938)
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