Effects of Insulin Degludec and Insulin Glargine U300 on Day-to-Day Fasting Plasma Glucose Variability in Individuals with Type 1 Diabetes: A Multicenter, Randomized, Crossover Study (Kobe Best Basal Insulin Study 2).

INTRODUCTION: Administered basal insulin markedly influences the fasting plasma glucose (FPG) level of individuals with type 1 diabetes. Insulin degludec (IDeg) and insulin glargine U300 (IGlar U300) are now available as ultra-long-acting insulin formulations, but whether or how their glucose-stabilizing effects differ remains unclear. We will compare the effects of these basal insulins on parameters related to blood glucose control, with a focus on day-to-day glycemic variability, in individuals with type 1 diabetes treated with multiple daily injections.
METHODS: A multicenter, randomized, open-label, crossover, comparative study (Kobe Best Basal Insulin Study 2) will be performed at 13 participating institutions in Japan. A total of 46 C-peptide-negative adult outpatients with type 1 diabetes will be randomly assigned 1:1 by a centralized allocation process to IGlar U300 (first period)/IDeg (second period) or IDeg (first period)/IGlar U300 (second period) groups, in which subjects will be treated with the corresponding basal insulin for consecutive 4-week periods. The basal insulin will be titrated to achieve an FPG of less than 130 mg/dL initially and then less than 110 mg/dL if feasible. In the last week of each period, plasma glucose will be determined seven times a day by self-monitoring of blood glucose (SMBG) and intraday and day-to-day glucose excursions will be determined by flash glucose monitoring (FGM). The primary end point is comparison of day-to-day glycemic variability as evaluated by the standard deviation (SD) of FPG during the last week of each treatment period. Secondary end points include the coefficient of variance of FPG, the frequency of severe hypoglycemia as evaluated by SMBG, the duration of hypoglycemia as evaluated by FGM, intraday glycemic variability calculated from both SMBG and FGM data, and the administered insulin dose. PLANNED OUTCOMES: The results of the study will be submitted for publication in a peer-reviewed journal to report differences in the effects of two ultra-long-acting basal insulins, IDeg and IGlar U300.
CONCLUSION: This head-to-head comparison will be the first study to compare the effects of IDeg and IGlar U300 on day-to-day FPG variability in C-peptide-negative individuals with type 1 diabetes. TRIAL REGISTRATION: Registered in University Hospital Medical Information Network (UMIN) Clinical Trials Registry as 000029630 on 20 June 2017. FUNDING: Novo Nordisk Pharma Ltd.

RCT Entities:   Population Interventions Outcomes

Introduction

Background

In patients with type 1 diabetes who undergo basal-bolus insulin therapy with multiple daily injections, basal insulin greatly influences the stability of blood glucose levels in the fasting state. Insulin glargine U100 (IGlar U100; A21Gly, B31Arg, B32Arg human insulin at 100 U/mL) is a long-acting insulin analogue that has been widely and safely administered as a basal insulin [1, 2]. A more highly concentrated formulation of insulin glargine (IGlar U300, 300 U/mL) is now available and has been shown to have a longer duration of action and a more even activity profile compared with IGlar U100 [3, 4]. Insulin degludec (IDeg; Des (B30) LysB29 (γ-Glu Nε-hexadecandioyl) human insulin) is another ultra-long-acting insulin analogue. The duration of action for IDeg, estimated at approximately 42 h, is much longer than that for IGlar U100 [5, 6]. Fasting plasma glucose (FPG) variability, or day-to-day glycemic variability, has recently gained the attention of physicians because it has been associated with micro- and macrovascular complications [7, 8], hypoglycemia [8, 9], Alzheimer’s disease [10], as well as cancer incidence and cancer-related death [11] in individuals with diabetes. The differences in the effects of IGlar U300 and IDeg, in particular their effects on day-to-day glycemic variability, have remained unclear, however. We therefore designed the current study to determine the standard deviation (SD) of FPG levels in individuals with type 1 diabetes treated with basal-bolus insulin therapy including either IGlar U300 or IDeg.

Objectives

The aim of this study is to compare the effects of IDeg and IGlar U300 on day-to-day FPG variability in C-peptide-negative individuals with type 1 diabetes and thereby to reveal any clinically important differences between these two basal insulins. In addition, we will investigate the effects of these two insulins on other parameters related to blood glucose control such as duration of hypoglycemia and nocturnal glucose changes with the use of flash glucose monitoring (FGM).

Methods

Study Design and Ethics Compliance

This randomized, crossover, open-label, parallel-group, multicenter study (Kobe Best Basal Insulin Study 2) will be performed over 2 months with Japanese subjects with type 1 diabetes in accordance with the Declaration of Helsinki and its amendments. The trial was registered with the University Hospital Medical Information Network Clinical Trials Registry (UMIN-CTR) as UMIN 000029630 on 20 June 2017, and it has been approved by the ethics committees of 13 participating institutions listed in “Acknowledgements”. The study is to be conducted according to the Ethical Guidelines for Clinical Research published by the Japanese Ministry of Education, Culture, Sports, Science, and Technology and Ministry of Health, Labor, and Welfare (2014 revision), the ICH Consolidated Guideline for Good Clinical Practice, and applicable local laws and regulations. Written informed consent will be obtained from all subjects prior to their randomization.

Sample Selection

Patients must satisfy all of the following inclusion criteria and not meet any exclusion criteria. Inclusion criteria for the trial include (1) individuals with type 1 diabetes aged at least 20 years whose serum C-peptide immunoreactivity is less than 0.2 ng/mL (as confirmed at least twice); (2) treatment for at least 1 year with basal-bolus insulin injections, with IGar U100, IGlar U300, or IDeg as the basal insulin and a rapid-acting insulin analogue or regular insulin as the bolus insulin; (3) the ability to perform self-monitoring of blood glucose (SMBG); and (4) the ability to perform FGM. Exclusion criteria include (1) a glycated hemoglobin (HbA1c) level of 9.0% or higher; (2) use of medications that affect glucose metabolism (such as beta-blockers, corticosteroids, and monoamine oxidase inhibitors); (3) a history of myocardial infarction, angina, coronary bypass surgery, or heart failure within the previous 6 months; (4) severe hypertension (systolic blood pressure of at least 180 mmHg or diastolic blood pressure of at least 100 mmHg); (5) severe liver dysfunction (serum aspartate aminotransferase or alanine aminotransferase levels of at least 2.5 times the upper limit of normal); (6) severe renal impairment (serum creatinine concentration of at least 2.0 mg/dL); (7) frequently recurring severe hypoglycemia or hospitalization because of serious hypoglycemia or diabetic ketoacidosis within the previous year; (8) proliferative diabetic retinopathy with a high risk of hemorrhage; (9) existing or possible pregnancy or breastfeeding or no use of an adequate contraceptive method (adequate contraceptive measures as recommended by local regulation or practice); (10) a diagnosis of cancer; (11) a complicating psychiatric disorder; (12) alcoholism or other drug addiction; (13) diabetes other than type 1, or type 1 diabetes with remaining insulin secretory capacity; (14) rejection of SMBG or FGM; (15) declaration by an investigator that the individual is otherwise inappropriate for the study. The use of previous FGM or CGM is not included in exclusion criteria. Severe hypoglycemia is defined as an event associated with central nervous system manifestations during which the patient requires the assistance of another person. The judgment of frequent recurrence of hypoglycemia will be made by each attending physician. Participants are required both to be able to understand instructions for SMBG and FGM and to provide informed consent in order to be enrolled.

Rationale for Planned Sample Size

We previously found that the mean value for the SD of FPG was approximately 10 mg/dL smaller with IDeg than with IGlar U100 in individuals with type 1 diabetes [12]. To determine the sample size for the present study, we performed a preliminary analysis of the day-to-day variability in FPG for individuals with type 1 diabetes treated with IDeg as the basal insulin at Kobe University Hospital. The mean and SD values for the SD of FPG in 30 patients over 7 days were determined to be 48.5 and 30.8 mg/dL, respectively. The SD for the intrapatient difference was calculated on the basis of and the noninferiority margin was set as ± 20 mg/dL. At a significance level of 5% and power of 80%, the sample size needed is 19 patients per group. Taking into account subject dropout and withdrawal of informed consent during the study period, we set the sample size at 23 patients per group, for a total of 46 patients.

Intervention

Enrollment and follow-up visits are outlined in Fig. 1. Individuals found to satisfy the study criteria will be randomly assigned to the IGlar U300 (first period)/IDeg (second period) and the IDeg (first period)/IGlar U300 (second period) groups by a centralized allocation process. In the IGlar U300/IDeg group, the basal insulin will be switched after 4 weeks from IGlar U300 (Lantus XR, SoloSTAR; Sanofi, Paris, France) to IDeg (Tresiba, FlexTouch; Novo Nordisk, Bagsvaerd, Denmark). In the IDeg/IGlar U300 group, the basal insulin will be switched after 4 weeks from IDeg to IGlar U300. The participants will be directed to determine their plasma glucose level four times a day (before breakfast, lunch, and dinner as well as at bedtime) by SMBG during the entire trial period. According to the half-life of IDeg (25.4 h) and IGlar U300 (19.0 h), 3 weeks is considered to be enough to washout the effect of previous insulin. The last week of each treatment period constitutes the data collection phase, during which the participants will be directed to determine their plasma glucose level seven times a day (before breakfast, 2 h after breakfast, before lunch, 2 h after lunch, before dinner, 2 h after dinner, and at bedtime). All subjects will be provided with the same device (OneTouch VerioVue; Johnson & Johnson, New Brunswick, NJ, USA) for SMBG and directed on its use. They will also be equipped with an FGM device (Freestyle Libre Pro; Abbott Diabetes Care, Alameda, California, USA) by medical staff on a visit midway through each treatment period, and the device will be removed by the subjects after 2 weeks for collection of data for the final week. Participants will store the detached FGM device until the next visit, when the data will be uploaded at the hospital or clinic. The data of FGM would be blinded to participants until the study end.

Fig. 1

Study design. Eligible patients are randomly allocated to the IDeg/IGlar U300 group (upper arm) or the IGlar U300/IDeg group (lower arm). The basal insulin will be switched after 4 weeks as indicated. SMBG and FGM data will be collected and analyzed for the last week of each treatment period, and the insulin dose will be determined

Subjects will be instructed to administer basal insulin at the same time of day in both treatment periods. It should be started at a dose 10% lower than the previous insulin dose at switching in order to prevent unexpected hypoglycemia. If the FPG level is less than 130 mg/dL for more than 3 days, the addition of 1 U of basal insulin will be allowed (self-titration). On the other hand, if FPG is less than 70 mg/dL even for 1 day, the subject will be instructed to reduce the basal insulin dose by 2 U in order to avoid hypoglycemia. Attending physicians will be available to advise patients on basal insulin dose. The type of bolus insulin preparation will not be changed during the trial, and the preprandial bolus insulin dose will be adjusted by each participant. The target plasma glucose level before breakfast, lunch, and dinner as well as at bedtime will initially be less than 130 mg/dL and will subsequently be reduced to less than 110 mg/dL for individuals capable of achieving a reduction on the basis of patients-centered approach. Participants will be directed to avoid hypoglycemia (less than 70 mg/dL) at any time during the day.

Measurements and Planned Outcomes

The primary end point of the study is the day-to-day variability of FPG level as evaluated by the SD of the plasma glucose concentration determined by SMBG before breakfast during the last week of each 4-week treatment period (Fig. 1). Secondary end points include (1) the coefficient of variance for the plasma glucose level determined by SMBG before breakfast during the last week of each 4-week treatment period as an indicator of interday glycemic variability independent of FPG level itself; (2) the intraday glycemic variability calculated from the seven daily measurements of plasma glucose by SMBG or from FGM data during the last week of each treatment period; (3) the frequency of hypoglycemic events; (4) the duration of hypoglycemia determined by FGM; and (5) the administered basal and bolus insulin dose (the mean for the last week of each treatment period).

Safety Reporting

All adverse events that occur during the intervention period must be reported irrespective of their suspected causal relation to the study drug. They must be followed up until they have disappeared or for at least 2 weeks after completion of the study period (after discontinuation) and will be assessed with respect to insulin type, onset, outcome, severity, and causal relation to the study drug.

Data Analysis

Intergroup differences of normally or non-normally distributed data will be tested for significance with the unpaired Student’s t test or Mann–Whitney U test, respectively. A P value of less than 0.05 will be considered statistically significant. All statistical analysis will be performed with SPSS version 22.0 software.

Discussion

Several studies have shown that FPG variability is associated with diabetic complications, severe hypoglycemia, or death [7, 8], suggesting that stabilization of FPG should be a therapeutic target for individuals with diabetes. Moreover, administered basal insulin can greatly influence FPG variability, especially in C-peptide-negative individuals with type 1 diabetes treated with basal-bolus insulin injection. We previously compared IDeg and IGlar U100 with regard to their effects on FPG variability in such patients and found that IDeg yielded a lower FPG level and smaller day-to-day variability in FPG at a lower daily dose compared with IGlar U100 [12]. The longer and more stable action of IDeg is due both to its slower absorption from the injection site into the circulation as a result of its formation of soluble multihexameric chains and to its prolonged retention in the circulation as a result of its binding to albumin in blood [13]. On the other hand, IGlar U300 is a newly developed ultra-long-acting basal insulin that is superior to IGlar U100 in terms of its longer action and more even effect [3, 4]. As a result of its threefold more concentrated formulation, the microprecipitates of subcutaneously injected IGlar U300 have a longer residence time at physiological pH compared with IGlar U100 [3]. Although both IDeg and IGlar U300 are now available in clinical practice, differences in the effects of these ultra-long-acting basal insulins have not been established. The results of euglycemic glucose clamp studies to compare the stability of the glucose-lowering effects of injected IDeg and IGlar U300 have not been consistent [14-16]. Recently, the efficacy and safety of IDeg and IGlar U300 were compared in a head-to-head randomized controlled clinical trial in type 2 diabetes (BRIGHT Trial) [17]. The trial revealed that the two basal insulins have similar effects on HbA1c improvement (in primary outcome), and less occurrence of hypoglycemia in IGlar U300 than in IDeg (in secondary outcome) if target FPG level was set as 80–100 mg/dl. The information on the difference of fasting glycemic variability has still not been reported to date.

The current study is the first randomized controlled trial to directly compare the two ultra-long-acting basal insulins with regard to their effects on day-to-day glycemic variability in C-peptide-negative patients with type 1 diabetes. The results of our study should prove informative for selection of the best basal insulin for the treatment of type 1 diabetes in the clinical setting.

Conclusion

This head-to-head study will be the first trial to compare the effects of IDeg and IGlar U300 on day-to-day FPG variability in C-peptide-negative individuals with type 1 diabetes.