Effect of Basal-Bolus Closed-Loop Co-Administration of Insulin and Pramlintide on Improving the Glycemic Control in Type 1 Diabetes

Phase 2

Completed

• Conditions: Diabetes Mellitus, Type 1
• Interventions: Other: 24-hour inpatient intervention

• Registration Number: NCT02814123
• Lead Sponsor: McGill University

Brief Summary

The closed-loop delivery system is composed of an insulin pump, a continuous glucose sensor and a dosing algorithm that calculates the insulin dose to infuse based on sensor readings. Pramlintide is a drug and an analog of amylin, a hormone that is co-secreted with insulin in healthy individuals, and is deficient in people with type 1 diabetes. Co-injection of pramlintide with insulin at meal times improves glucose control in type 1 diabetes. Literature data suggests that regular insulin may better match the effect of pramlintide compared to rapid insulin in regulating post-prandial glucose levels.

The purpose of this study is to compare the effectiveness of 3 strategies to control your day-and-night glucose levels:

1. rapid insulin-alone closed-loop delivery;

2. rapid insulin-plus-pramlintide closed-loop delivery;

3. regular insulin-plus-pramlintide closed-loop delivery.

The primary hypotheses are:

1. During closed-loop control, the simultaneous basal-bolus infusion of pramlintide and fast-acting insulin improves glucose control compared to fast-acting insulin-alone infusion.

2. During closed-loop control, the simultaneous basal-bolus infusion of pramlintide and regular insulin improves glucose control compared to fast-acting insulin-alone infusion.

Detailed Description

The closed-loop delivery system is composed of an insulin pump, a continuous glucose sensor and a dosing algorithm that calculates the insulin dose to infuse based on sensor readings. Pramlintide is a drug and an analog of amylin, a hormone that is co-secreted with insulin in healthy individuals, and is deficient in people with type 1 diabetes. Co-injection of pramlintide with insulin at meal times improves glucose control in type 1 diabetes.

Literature data suggests that the pharmacodynamics of regular insulin may better match the effect of pramlintide compared to the pharmacodynamics of fast-acting insulin. Moreover, the cost of regular insulin is significantly lower than fast-acting insulin. Therefore, if a similar (or better) glucose profile can be achieved with regular insulin-plus-pramlintide compared to fast-acting insulin-plus-pramlintide, then a co-formulation employing regular insulin should be prioritized.

Therefore, in this protocol, we aim to assess the effect of the simultaneous, closed-loop, basal-bolus infusion of pramlintide with insulin at a fixed ratio in controlling glucose levels. In the first experimental arm, we propose to infuse pramlintide with fast-acting insulin. In the second experimental arm, pramlintide will be infused with regular insulin. The control arm will be fast-acting insulin-alone closed-loop system.

The aim of the study is to assess the efficacy of the simultaneous, closed-loop, basal-bolus infusion of pramlintide with fast-acting insulin at a fixed ratio and pramlintide with regular insulin at a fixed ratio in controlling glucose levels compared to fast-acting insulin-alone closed-loop infusion.

The investigators aim to conduct a randomized, three-way, crossover trial to compare the efficacy of 1) fast-acting insulin-plus-pramlintide closed-loop delivery, 2) regular insulin-plus-pramlintide closed-loop delivery, and 3) fast-acting insulin-alone closed-loop delivery in regulating glucose levels over a period of 24 hours in a study on adults in inpatient settings. Insulin (fast-acting and regular) and pramlintide are given with fixed ratio (6 µg of pramlintide for each unit of insulin).

Before each 24-hour intervention visit, the participant's insulin therapy (basal rates and insulin-to-carbohydrate ratios) will be optimized for a minimum of 10 days, with a target of 14 days.

There will be a wash-out period of 0 to 42 days between the three intervention arms (termination of 24-hr intervention and start of next optimization period).

The primary hypotheses are:

1. During closed-loop control, the simultaneous basal-bolus infusion of pramlintide and fast-acting insulin improves glucose control compared to fast-acting insulin-alone infusion.

2. During closed-loop control, the simultaneous basal-bolus infusion of pramlintide and regular insulin improves glucose control compared to fast-acting insulin-alone infusion.

Study Timeline

• Study First Submitted: 2016-06-22
• Study First Submitted QC: 2016-06-22
• Study First Posted: 2016-06-27
• Study Start: 2017-01-13
• Primary Completion: 2018-07-08
• Study Completion: 2018-07-08
• Status Verified: 2020-02
• Last Update Submitted: 2020-02-13
• Last Update Posted: 2020-02-17

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 28

Inclusion Criteria

• Males and females ≥ 18 years of age.
• Clinical diagnosis of type 1 diabetes for at least 12 months. (The diagnosis of type 1 diabetes is based on the investigator's judgment; C peptide level and antibody determinations are not needed.)
• The subject will have been on insulin pump therapy for at least 6 months.
• HbA1c ≤ 10%.

Exclusion Criteria

• Current or ≤ 1 month use of other antihyperglycemic agents (SGLT2, GLP-1, Metformin, Acarbose, etc....).
• Severe hypoglycemic episode within one month of screening.
• Severe diabetes keto-acidosis episode within one month of screening.
• Planned or ongoing pregnancy.
• Known or suspected allergy to the study drugs.
• Gastroparesis.
• Use of prokinetic drugs that stimulate gastric emptying (domperidone, cisapride, metoclopramide).
• Clinically significant nephropathy, neuropathy or retinopathy as judged by the investigator.
• Recent (< 6 months) acute macrovascular event e.g. acute coronary syndrome or cardiac surgery.
• Current use of glucocorticoid medication.
• Other serious medical illness likely to interfere with study participation or with the ability to complete the trial by the judgment of the investigator.
• Failure to comply with team's recommendations (e.g. not willing to eat meals/snacks, not willing to change pump parameters, etc.).

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Regular Insulin-plus-pramlintide closed-loop delivery	24-hour inpatient intervention	Regular insulin and pramlintide will be delivered by subcutaneous infusion using a fixed ratio (6 µg pramlintide/unit insulin). Interventions: 24-hour inpatient intervention Drug: Regular Insulin (humulin R) Drug: Pramlintide
Rapid Insulin-alone closed-loop delivery	24-hour inpatient intervention	Rapid Insulin will be delivered by subcutaneous infusion. Interventions: 24-hour inpatient intervention Drug: Rapid acting Insulin (aspart, lispro, glulisine)
Rapid Insulin-plus-pramlintide closed-loop delivery	24-hour inpatient intervention	Rapid insulin and pramlintide will be delivered by subcutaneous infusion using a fixed ratio (6 µg pramlintide/unit insulin). Interventions: 24-hour inpatient intervention Drug: Rapid acting Insulin (aspart, lispro, glulisine) Drug: Pramlintide

Primary Outcome Measures

Name	Time	Method
Percentage of time of plasma glucose levels spent in target range. Target range is defined to be between 3.9 and 10.0 mmol/L of regular insulin-plus-pramlintide closed-loop delivery vs. fast-acting insulin-alone closed-loop delivery.	Up to 24 hours
Percentage of time of plasma glucose levels spent in target range. Target range is defined to be between 3.9 and 10.0 mmol/L of fast-acting insulin-plus-pramlintide closed-loop delivery vs. fast-acting insulin-alone closed-loop delivery.	Up to 24 hours

Secondary Outcome Measures

Name	Time	Method
Standard deviation of glucose levels as a measure of glucose variability.	Up to 24 hours
Total pramlintide delivery.	Up to 24 hours
Mean plasma amylin concentration.	Up to 24 hours
Total insulin delivery.	Up to 24 hours
Mean plasma glucose level during: a. the overall study period; b. overnight period.	Up to 24 hours
Percentage of time (8:00-8:00) of plasma glucose levels spent: a. 3.9-7.8 mmol/L; b. 3.9-10 mmol/L; c. <3.9 mmol/L; d. <3.3 mmol/L; e. <2.8 mmol/L; f. >7.8 mmol/L; g. >10 mmol/L; h. >13.9 mmol/L; i. >16.7 mmol/L	Up to 24 hours
Mean plasma glucagon concentration.	Up to 24 hours
Number of subjects experiencing hypoglycemia requiring oral treatment during: a. the overall study period; b. the night.	Up to 24 hours
Percentage of time of plasma glucose levels spent in target range, comparing fast-acting insulin-plus-pramlintide closed-loop delivery vs. regular insulin-plus-pramlintide closed-loop delivery.	Up to 24 hours
Percentage of overnight time (23:00-8:00) of plasma glucose levels: a. 3.9-7.8 mmol/L; b. 3.9-10 mmol/L; c. <3.9 mmol/L; d. <3.3 mmol/L; e. <2.8 mmol/L; f. >7.8 mmol/L; g. >10 mmol/L; h. >13.9 mmol/L; i. >16.7 mmol/L	Up to 24 hours
Mean plasma insulin concentration.	Up to 24 hours
Gastrointestinal symptoms during the treatment optimization (i.e., the minimum 10 days prior to the 24-hour closed-loop visits) and during the 24-hour closed-loop visits.	Up to 24 hours

Trial Locations

Locations (1)

McGill University Health Centre; 🇨🇦 Montréal, Quebec, Canada