Dual-hormone Closed-loop Glucose Control in Type 1 Diabetes

Phase 4

Completed

• Conditions: Type 1 Diabetes; Hypoglycemia
• Interventions: Device: Closed-loop system; Drug: Glucagon

• Registration Number: NCT04053712
• Lead Sponsor: Steno Diabetes Center Copenhagen

Brief Summary

Despite recent pharmacological and technological advantages, hypoglycemia remains to be the key limiting factor in achieving optimal glycemic control in people with type 1 diabetes. State-of-the-art treatment for type 1 diabetes is insulin in pens or pumps that focus on reducing hyperglycemia after relative insulin deficiency e.g. after food intake. In recent years, we focused on adding low-dose glucagon to insulin therapies for the treatment and prevention of hypoglycemia - referred to as "dual-hormone treatment". We have shown that low-dose glucagon is efficient in treating mild hypoglycemia and that several factors may affect its glucose response. Our next step is to test whether the combined delivery of insulin and glucagon can improve glucose control in individuals with type 1 diabetes. In this proposal, we want to test the efficacy, safety and feasibility of a dual-hormone closed-loop system, also known as an artificial pancreas. The closed-loop system involves automatic infusion of glucagon and insulin based on continuous glucose measurements. The system will be tested in a 33-hour in-clinic study comparing the glucose control by the combined automatic delivery of insulin and glucagon with the automatic delivery of insulin-only. The study is performed at Steno Diabetes Center Copenhagen (SDCC) in collaboration with the Technical University of Denmark (DTU). We expect that the study will clarify whether low-dose glucagon added to insulin therapy can improve the glucose control in adults with type 1 diabetes. We believe that the utilization of glucagon will allow for a weight neutral optimization of glucose control, reduce risk of hypoglycemia and reduce disease burden that will reduce diabetes complications and cardiovascular diseases.

Detailed Description

Rationale: We hypothesize that our newly developed dual-hormone insulin-glucagon closed-loop system (DCL) is safe, efficient and superior to our single-hormone insulin-only closed-loop system (SCL). The study aims to compare the glucose control achieved by DCL with our SCL.

Design: A randomized single-blinded placebo-controlled cross-over 33-hour in-clinic study of glucose control achieved with DCL versus SCL in adults and adolescents with type 1 diabetes.

Participants: 13 insulin-pump treated T1D participants will be included, if they are 15-80 years old, have T1D for ≥ 3 years, use insulin pumps with FiAsp®, and have an HbA1c≤ 8.5% (69 mmol/mol).

Procedures: In this two-phase study 1) we test the operability of our closed-loop systems and 2) compare glucose control by DCL with SCL. The two studies are identical except for the blinding procedures. In the first phase (pilot study), four participants are included, and the glucagon/saline pump is not masked. In the second phase (main study), 13 participants are included, and are as well as the investigators blinded for the content in the glucagon/saline pump.

Two days prior to study visit, a CGM (Dexcom® G6) is place on the participant's abdomen. At study visits, participants arrive in the evening at our research unit and get their insulin pump disconnected. Two study pumps (Dana Diabecare RS®, SOOIL) are attached: one pump infuses insulin (FiAsp®, Novo Nordisk) and the other infuses either glucagon (GlucaGen®, Novo Nordisk) or saline. Once a sampling cannula is placed in an antecubital vein, the study is initiated and the closed-loop system (DCL vs SCL) takes over the glucose control for the next 33 hours. Except from the control algorithm (SCL vs DCL), the study days are identical. Participants can move around freely in the clinic for 33 hours but will perform a 45-min moderate (50% VO2max) exercise session, consume three meals with variant carbohydrate content, and sleep during two overnight periods. Participants will be monitored frequently with blood samples (drawn from the antecubital vein), blood pressure, pulse, and VAS scale for nausea.

Study Timeline

• Study Start: 2019-07-16
• Study First Submitted: 2019-08-08
• Study First Submitted QC: 2019-08-09
• Study First Posted: 2019-08-12
• Primary Completion: 2021-03-19
• Study Completion: 2021-03-19
• Status Verified: 2022-08
• Last Update Submitted: 2022-08-17
• Last Update Posted: 2022-08-18

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 13

Inclusion Criteria

Not provided

Exclusion Criteria

Not provided

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Single-hormone	Closed-loop system	FiAsp (R) - Saline
Dual-hormone	Closed-loop system	FiAsp(R) - GlucaGen(R)
Dual-hormone	Glucagon	FiAsp(R) - GlucaGen(R)

Primary Outcome Measures

Name	Time	Method
Percentage of time with glucose values < 3.9 mmol/l as measured by glucose sensor	33 hours
Number of carbohydrate interventions to treat hypoglycemia	33 hours	Carbohydrate interventions are predefined and provided in case of hypoglycemia

Secondary Outcome Measures

Name	Time	Method
Percentage of participants achieving (A) time in range (3.9-10 mmol/l) > 70 %, (B) time in alert hypoglycemia (<3.9 mmol/l) < 4 %, and (C) time in clinical hypoglycemia (<3.0 mmol) < 1% as measured by glucose sensor and venous plasma glucose	33 hours	A composite outcome will be calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Number of hypoglycemic episodes (<3.9 mmol/l and <3.0 mmol/l) overnight and during daytime	33 hours
Nadir blood glucose value for each hypoglycemic episode as measured by glucose sensor and venous plasma glucose	33 hours
Percentage of time with glucose values < 3.9 mmol/l as measured by venous plasma glucose	33 hours	Calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Percentage of time with glucose values in the range 3.9-10.0 mmol/l measured by glucose sensor and venous plasma glucose	33 hours	Calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Low Blood Glucose Index (LBGI) overnight and during daytime by glucose sensor and venous plasma glucose	33 hours	Calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Percentage of participants with a mean blood glucose value (glucose sensor and venous plasma glucose) ≤ 8.6 mmol/l (corresponding to an estimated HbA1c of 7.0% / 53 mmol/mol)	33 hours
Mean pulse rate over the study period (beats per min)	33 hours	Blood pressure and pulse taken at predefined timepoints
Total time of insulin suspension per study day (UI)	33 hours
Mean plasma glucagon	33 hours	the outcome will be calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Total energy expenditure during the study visit (kcal/kg) measured by ActiGraph GT9X Link	33 hours	Freedson and Sasaki MET prediction equations to determine energy expenditure in MET
Steps taken during the study visit measured by ActiGraph GT9X Link	33 hours
Minutes between lights off and the first sleep episode (Sleep latency) measured by ActiGraph GT9X Link	14 hours
Mean blood glucose value measured by glucose sensor and venous plasma glucose	33 hours	Calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Percentages of values between glucose sensor and venous plasma glucose in zone A, B, C, D and E in the Clarke Error Grid analysis.	33 hours	Participants have two glucose sensors during the study. One sensor closed to the infusion of glucagon.
Difference in participant estimated blood glucose level and plasma glucose level at predefined timepoints	33 hours	Self-assessment of glucose levels (Clarke Error Grid)
Total sleep time measured by ActiGraph GT9X Link	14 hours	Minutes between sleep onset and wake time
Percentage of time with glucose values in the range 3.9-8.0 mmol/l measured by glucose sensor and venous plasma glucose	33 hours	Calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Percentage of time with glucose values in the range > 13.9 measured by glucose sensor and venous plasma glucose	33 hours	Calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Percentage of time with glucose values < 3.0 mmol/l as measured by glucose sensor and venous plasma glucose	33 hours	Calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Mean Absolute Relative Difference (MARD) between glucose sensor and venous plasma glucose	33 hours	Participants have two glucose sensors during the study
Glucose sensor glycemic variability measured as SD and CV during overnight and during daytime	33 hours	Calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Percentage of patients with a mean blood glucose value (glucose sensor and venous plasma glucose) ≤ their standard therapy mean glucose value (calculated based on HbA1c measurement)	33 hours
Mean blood pressure over the study period (mmHG)	33 hours	Blood pressure and pulse taken at predefined timepoints
Total glucagon dose per study day (microgram)	33 hours	the outcome will be calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Difference in participant estimated grams of carbohydrate and actual carbohydrate in study meals	33 hours	Meals presented at the study will be estimated for carbohydrate content by the participant on
Minutes per study day (min/d) spent in different levels of activity (sedentary, light, moderate, vigorous, or MVPA) measured by ActiGraph GT9X Link	45 min
Mean nausea level measured with a visual analog scale (VAS range: 0-10)	33 hours	Calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
Total insulin dose per study day (UI)	33 hours
Mean plasma insulin aspart	33 hours	the outcome will be calculated for the whole study period as well as for the following intervals: night 1 (23:00-07:00), night 2 (23:00-07:00), night 1 and 2, 23:00-15:00 and 15:00-07:00.
The percentage of time asleep from lights off to lights on (sleep efficiency) measured by ActiGraph GT9X Link	14 hours
Mean Borg scale level during exercise (RANGE:0-10)	45 min	Assessed every 5-10 minutes during bicycling

Trial Locations

Locations (1)

Steno Diabetes Center Copenhagen; 🇩🇰 Gentofte, Denmark