Closing the Loop in Adults With Type 1 Diabetes Under Free Living Conditions — AP@Home04_P3  

Type 1 Diabetes Clinical Trial

Official title: A Multi-centre, Randomised, Two-period, Crossover Study to Evaluate Home Use of Closed-loop Applying Faster Insulin Aspart Versus Standard Insulin Aspart

Status Completed

Clinical Trial Summary

The main objective of this study is to determine whether home use of day and night closed loop insulin delivery under free living conditions applying faster insulin aspart (FiAsp) is non-inferior to home use of closed-loop applying standard insulin aspart.

This is a double-blind, multi-centre, randomised, crossover design study, involving a run-in period followed by two study periods during which glucose levels will be controlled either by an automated closed-loop system using standard rapid acting insulin analogue or by an automated closed-loop system using faster insulin aspart in random order.

Subjects will receive appropriate training in the safe use of closed-loop insulin delivery system. Subjects will have regular contact with the study team during the home study phase including 24/7 telephone support.

The primary outcome is time spent in target range between 3.9 and 10.0 mmol/L as recorded by CGM during home stay. Secondary outcomes are the HbA1c, time spent with glucose levels above and below target, as recorded by CGM, and other CGM based metrics.

Clinical Trial Description

Purpose of clinical trial The purpose is to determine whether home use of day and night closed loop applying faster insulin aspart is not inferior to home use of closed loop applying standard insulin aspart.

Study objectives The study objective is to compare day and night automated closed-loop glucose control using faster acting insulin aspart with closed loop control using standard insulin aspart.

1. EFFICACY: The objective is to assess the efficacy of day and night automated closed-loop glucose control applying standard rapid-acting insulin analogue in maintaining CGM glucose levels within the target range from 3.9 to 10.0 mmol/l, as compared to day and night closed-loop using faster acting insulin aspart

2. SAFETY: The objective is to evaluate the safety of day and night automated closed-loop glucose control in terms of episodes of severe hypoglycaemia, hyperglycaemia and other adverse events and adverse device effects.

3. UTILITY: The objective is to determine the percentage of time when closed-loop was operational, and usability and acceptance of the closed-loop system.

Study Design A double-blind, multi-centre, randomised, two-period crossover study, contrasting day and night automated closed-loop glucose control applying standard rapid acting insulin analogue with day and night closed-loop control applying faster acting insulin aspart.

Study Efficacy Endpoints The primary outcome is the time spent in the target glucose range from 3.9 to 10.0 mmol/l based on CGM glucose levels during the free living phase.

Secondary outcomes include time spent above and below the target glucose range, based on CGM levels.

Safety Evaluation Frequency of severe hypoglycaemic episodes as defined by American Diabetes Association, frequency of severe hyperglycaemia (>20 mmol/l) and / or significant ketosis (plasma ketones >3mmol/l) and nature and severity of other adverse events.

Utility Evaluation Percentage of time spent in closed-loop. Usability and acceptance of the closed-loop system will be assessed using a patient experience questionnaire at the end of the second intervention. Additionally, human factor questionnaires will be administered following recruitment and at the end of each intervention arm.

Sample Size 24 adults completing the study. Up to 30 subjects will be recruited to allow for dropouts.

Maximum duration of study for a subject 20 weeks (5 months)

Recruitment The subjects will be recruited through the adult diabetes outpatient clinics or other established methods at participating centres.

Consent Participants will be asked to provide written informed consent.

Baseline Assessment Eligible subjects will undergo a baseline evaluation including a blood sample for the measurement of HbA1c, renal, liver functions, full blood count, thyroid functions and coeliac antibody screen (if not done in the previous 3 months). Urine pregnancy test will be done in females. Additional centre specific assessments will also be undertaken. Human factor questionnaires will be administered.

Study Training and Run-in Period Training sessions on the use of study CGM, insulin pump and closed-loop system will be provided by the research team. During the 2-4 weeks run-in period, subjects will use study CGM and insulin pump and will have regular contact with the research team. At the end of the run-in period, for compliance and to assess the ability of the subject to use the CGM and study pump safely, before the start of the first home study phase, at least 7 days of CGM data need to be recorded and safe use of study insulin pump demonstrated. CGM and insulin pump data during the run-in period will be used to assess baseline glucose control and optimise treatment before the start of the first home study phase.

Competency Assessment Competency on the use of study insulin pump, study CGM and closed-loop system will be evaluated using a competency assessment tool developed by the research team. Further training may be delivered as required.

Randomisation Eligible subjects will be randomised using randomisation software to the use of closed-loop with faster acting aspart or to closed-loop with standard insulin aspart.

Automated closed-loop Training on the use of closed-loop will be provided by the research team. Automated closed-loop control will be commenced and during the 2-3 hour training the participant will operate the system under the supervision of the clinical team. Competency on the use of closed-loop system will be evaluated. Subjects will be advised to use automated closed-loop system for next 8 weeks

Cross-over Assessment At the end of the first intervention human factor questionnaires will be administered.

There will be no washout period in phase 3 extension.

End of study assessments A patient experience questionnaire will be given at the end of the second intervention. Additionally human factor questionnaires will be administered.

Procedures for safety monitoring during trial Standard operating procedures for monitoring and reporting of all adverse events and adverse device events will be in place, including serious adverse events (SAE), serious adverse device effects (SADE) and specific adverse events (AE) such as severe hypoglycaemia.

Subjects will be asked to test and record blood ketones if their finger-stick glucose is above 14 mmol/l as part of the safety assessment for hyperglycaemia.

A data monitoring and ethics committee (DMEC) will be informed of all serious adverse events and any unanticipated adverse device/method effects that occur during the study and will review compiled adverse event data at periodic intervals.

Criteria for withdrawal of patients on safety grounds

A subject may terminate participation in the study at any time without necessarily giving a reason and without any personal disadvantage. An investigator can stop the participation of a subject after consideration of the benefit/risk ratio. Possible reasons are:

• Serious adverse events

• Significant protocol violation or noncompliance

• Failure to satisfy competency assessment

• Decision by the investigator, or the sponsor, that termination is in the subject's best medical interest

• Pregnancy, planned pregnancy, or breast feeding

• Allergic reaction to insulin

• Technical grounds (e.g. subject relocates) ;

Related Conditions & MeSH terms

• Diabetes Mellitus, Type 1
• Type 1 Diabetes

• NCT number: NCT04055480
• Study type: Interventional
• Source: University of Cambridge
• Status: Completed
• Phase: N/A
• Start date: August 10, 2019
• Completion date: August 30, 2020