Optimal Dosing and Titration of U-500R Improve Glycemic Control

Summary

Human regular U-500 insulin (U-500R) is more concentrated and has a higher potency level than U-100 insulin. Dosing errors can occur in patients on concentrated insulin. This study investigates dosing and titration of U-500R insulin using a twice- or thrice-daily dosing schedule.

  • U-100
  • U-500R
  • glycemic control
  • total daily dose
  • insulin
  • HbA1c
  • insulin resistance
  • endocrinology, diabetes & metabolism clinical trials
  • diabetes mellitus
  • hyperglycemia/hypoglycemia

Transitioning from U-100 to recombinant human regular U-500 insulin (U-500R) can improve glycemic control and reduce the number of daily injections in patients with inadequately controlled type 2 diabetes mellitus (T2DM). To study initiation and titration of U-500R, Robert C. Hood, MD, Endocrine Clinic of Southeast Texas, Beaumont, Texas, USA, conducted a randomized, controlled clinical trial, the Study of Human Regular U-500 Insulin in Adult Participants With Type 2 Diabetes [NCT01774968], a 24-week, open-label, parallel-arm trial in 325 patients taking 201 to 600 units per day of U-100 insulin therapy, with or without oral anti-hyperglycemic agents.

Patient demographics (means ± standard deviations) included the following: age, 55.4 ± 9.8 years; duration of diabetes, 15.2 ± 7.4 years; body mass index, 41.9 ± 7.5 kg/m2; HbA1c, 8.7% ± 1.0%; and U-100 insulin dose, 287.5 ± 80.5 units administered in a median of 5 injections per day (range, 2 to 10).

Patients were randomized to either thrice-daily (TID; n = 162) or twice-daily (BID; n = 163) dosing of U-500R after a 4-week lead-in period. The transition formula from U-100 insulins to U-500R reduced the total daily dose (TDD) by 20% for those with baseline HbA1c ≤ 8.0% or a mean pre-meal self-monitored plasma glucose (SMPG) < 183 mg/dL; otherwise, a 1:1 transition was used. Initial U-500R proportions were 40:30:30 (breakfast:lunch:dinner) for TID and 60:40 (breakfast:dinner) for BID. Both algorithms adjusted the TDD at each visit up to +30% (−20% for hypoglycemia) to achieve SMPG of 71 to 130 mg/dL.

After 24 weeks, both treatments demonstrated significant and comparable reductions in HbA1c from baseline (TID, −1.12%, HbA1c 7.53% ± 1.1%; BID, −1.22%, HbA1c 7.41% ± 1.0%; P < .001 for both). The difference (BID vs TID) was −0.10% (P = .37; 95% CI, −0.33% to 0.12%), demonstrating clinical equivalence between treatments at the noninferiority margin of 0.4%.

Proportions of patients reaching HbA1c target values were similar between the 2 regimens.

Comparable increases in U-500R TDDs were observed for the TID and BID arms (242.7 to 343.1 units and 249.0 to 335.0 units, respectively). Severe hypoglycemia was uncommon and occurred with similar incidence: 3 patients (1.9%) TID and 6 patients (3.7%) BID. The incidence and rate of documented symptomatic hypoglycemia (≤ 70 mg/dL) were lower for TID compared with BID (P = .003 and P = .02, respectively). Weight gain was similar between the regimens (5.4 ± 0.4 kg TID and 4.9 ± 0.4 kg BID).

Initiation and titration of U-500R using either algorithm (BID or TID) improved glycemic control effectively and safely, with fewer injections in patients with T2DM than in those on high-dose/high-volume U-100 insulin. These results provide clinicians with a practical approach for using U-500R in severely insulin-resistant patients with suboptimally controlled T2DM.

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