Assessment of the Efficacy of the Artificial Pancreas Combined With a Qualitative Meal Size Estimation to Control Postprandial Glucose Levels

Type 1 Diabetes Clinical Trial

Official title:

An Open-label, Randomized, Crossover Trial to Assess the Efficacy of Single-hormone Closed-loop System With a Rapid Acting Insulin Analogue Combined With Either Conventional Carbohydrate Counting or a Simplified Qualitative Meal-size Estimation in Regulating Glucose Levels in Adults With Type 1 Diabetes

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT04031599
• Other study ID #: CLASS18
• Status: Completed
• Phase: N/A
• Start date: July 10, 2020
• Est. completion date: December 14, 2021

Study information

• Verified date: January 2022
• Source: Institut de Recherches Cliniques de Montreal
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

Postprandial glycemic excursions are major determinants of overall glycemic control in type 1 diabetes. Carbohydrate content of ingested meals is the main determinant of post-meal glucose excursion. Accurate carbohydrate counting is a critical aspect of managing postprandial blood glucose levels. accurate carbohydrate counting is considered by patients as a significant burden and frustrating task. The closed-loop system (CLS) is composed of three components: glucose sensor to read glucose levels, insulin pump to infuse insulin and a dosing mathematical algorithm to decide on the required insulin dosages based on the sensor's readings. The objective of this study is to compare the efficacy of two strategies to regulate glucose levels in outpatient settings in adults with type 1 diabetes: 1) single-hormone CLS with rapid acting insulin analogue combined with carbohydrate counting; 2) single-hormone CLS with rapid acting insulin analogue combined with simplified qualitative meal-size estimation. A sub-study will also be proposed to participants. Postprandial exercise combines two situations complicating CLS operation: a high plasma insulin due to insulin on-board related to meal boluses and rapid blood glucose changes (postprandial blood glucose excursion and then drop during exercise) making input from the glucose sensor less accurate. The objective of this sub-study will be to explore the safety and efficacy of the CLS using the combined strategy of pre-meal exercise announcement and meal bolus reduction of 33% when exercise is performed 1 hour compared to 2 hours post meal time.

Recruitment information / eligibility

• Status: Completed
• Enrollment: 30
• Est. completion date: December 14, 2021
• Est. primary completion date: November 27, 2021
• Accepts healthy volunteers: No
• Gender: All
• Age group: 18 Years and older

Eligibility

Inclusion criteria

1. Males and females = 18 years of old.

2. Clinical diagnosis of type 1 diabetes for at least one year. The diagnosis of type 1 diabetes is based on the investigator's judgment; C peptide level and antibody determinations are not needed.

3. The subject will have been on insulin pump therapy for at least 3 months.

4. Currently using, or willing to switch to Lispro U100 or Aspart for the duration of the study.

5. HbA1c < 10%. Exclusion criteria

1. Clinically significant nephropathy, neuropathy (e.g. known or suspected gastroparesis) or retinopathy (e.g. proliferative retinopathy) as judged by the investigator

2. Recent (< 6 months) acute macrovascular event e.g. acute coronary syndrome or cardiac surgery

3. Anticipated need to use acetaminophen during interventions with the closed-loop system

4. Pregnancy (ongoing or current attempt to become pregnant)

5. Breastfeeding

6. No nearby third party for assistance if needed (e.g. severe hypoglycemia glucagon treatment)

7. Plans to go abroad or travel at more than 3 hours distance from Montreal during the trial period

8. Severe hypoglycemic episode within two weeks of screening or during the run-in period

9. Severe hyperglycemic episode requiring hospitalization in the last 3 months

10. Current use of glucocorticoid medication (except low stable dose and inhaled steroids)

11. Agents affecting gastric emptying (Motilium®, Victoza®, Ozempic®, Trulicity®, Byetta® and Symlin®) as well as oral anti-diabetic agents (Metformin, Prandase®, DPP-4 inhibitors) if not at a stable dose for 3 months. Otherwise, these medications are acceptable and will be kept stable during the entire protocol.

12. Current use of SGLT-2 inhibitors unless at a stable dose for at least 3 months and appropriate ketone testing performed.

13. Known or suspected allergy to the trial products

14. Other serious medical illness likely to interfere with study participation or with the ability to complete the trial by the judgment of the investigator

15. Anticipation of a significant change in exercise regimen between admission and end of the trial (i.e. starting or stopping an organized sport)

16. In the opinion of the investigator, a participant who in unable or unwilling to observed the contraindications of the study devices

Related Conditions & MeSH terms

• Diabetes Mellitus, Type 1
• Type 1 Diabetes

Intervention

Device:
• Single-hormone closed-loop system
Every 10 minutes, the glucose levels as measured by the sensor will be transferred automatically to a LG Google Nexus Smartphone that the algorithm is running on, which will calculate the recommended doses and will send them wirelessly to the infusion pump.
• Insulin pump
Tandem Diabetes Care
• Continuous glucose monitoring system
Dexcom G6

Drug:
• Aspart or Lispro
Aspart or lispro will be infused with the infusion pump

Other:
• Carbohydrate counting
Participants will be required to enter an estimate of the carbohydrate content of their meal into the phone. Insulin boluses will be calculated based on grams of carbohydrates and participant's insulin-to-carbohydrate ratio. Carbohydrate-matching full prandial bolus will be given 5 to 10 minutes before the meal.
• Simplified qualitative meal-size estimation strategy
A pre-meal partial prandial bolus will be given 5-10 minutes before the meal. The partial bolus will be based on the estimated meal size (small, regular, large and extra-large). The closed-loop system will give the remaining insulin needed based on the sensor readings. For this strategy, meal size will be defined as: small as any meal less than 30g, regular meal as any meal between 30g and 60g CHO, large meal as any meal between 60g and 90g CHO, extra-large meal for anything above 90g CHO.
• 3-week intervention
Glucose levels will be regulated by the single-hormone closed-loop system for 3 consecutive weeks.
• 1-hour postprandial exercise (sub-study)
60 minute exercise will be started one hour after the meal time.
• 2-hour postprandial exercise (sub-study)
60 minute exercise will be started two hours after meal time
• Exercise announcement and meal bolus reduction (sub-study)
Meal bolus reduction of 33% at meal time and exercise announcement (increased target glucose from 6 to 9mmolL) to the CLS algorithm

Locations

Country	Name	City	State
Canada	McGill University Health Center	Montreal	Quebec
Canada	Montreal Clinical Research Institute	Montreal	Quebec

Sponsors (1)

Lead Sponsor	Collaborator
Institut de Recherches Cliniques de Montreal

Country where clinical trial is conducted

Canada, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Percentage of time of glucose levels spent between 3.9 and 10.0 mmol/L		504 hours
Primary	Relative decrease in glucose levels during exercise compared to pre-breakfast levels (sub-study)	Difference between pre-breakfast levels and the lowest glucose level from the start of the exercise until the end of exercise	3.5 or 4.5 hours
Secondary	Percentage of time of glucose levels spent between 3.9 and 7.8 mmol/L		504 hours
Secondary	Percentage of time of glucose levels spent below 3.9 mmol/L		504 hours
Secondary	Percentage of time of glucose levels spent below 3.3 mmol/L		504 hours
Secondary	Percentage of time of glucose levels spent below 2.8 mmol/L		504 hours
Secondary	Percentage of time of glucose levels spent above 10.0 mmol/L		504 hours
Secondary	Percentage of time of glucose levels spent above 13.9 mmol/L		504 hours
Secondary	Percentage of time of glucose levels spent above 16.7 mmol/L		504 hours
Secondary	Mean glucose levels		504 hours
Secondary	Fasting glucose levels		504 hours
Secondary	Standard deviation of glucose levels		504 hours
Secondary	Standard deviation of insulin delivery		504 hours
Secondary	Coefficient of variance of glucose levels		504 hours
Secondary	Coefficient of variance of insulin delivery		504 hours
Secondary	Between-day variability in glucose levels		504 hours
Secondary	Between-day variability in insulin delivery		504 hours
Secondary	Total insulin delivery		504 hours
Secondary	Number of hypoglycemic events less than 3.1 mmol/L		504 hours
Secondary	Number of nights with hypoglycemic events less than 3.1 mmol/L		126 hours
Secondary	Number of days with hypoglycemic events less than 3.1 mmol/L		252 hours
Secondary	Total number of hours of sensor availability		378 hours
Secondary	Percentage of time of sensor availability		504 hours
Secondary	2-hour postprandial glucose levels over the last 3 days of the intervention.		18 hours
Secondary	Average number of days per participant requiring study team support for at least one technical problem		21 days
Secondary	Number of hours and percentage of time in open-loop and closed-loop modes		504 hours
Secondary	Average number of phone calls per participant related to CLS technical issues		504 hours
Secondary	Decrease in plasma glucose levels during exercise (sub-study)	Difference between glucose levels at the beginning of the exercise and the lowest glucose levels from the start of the exercise until the end of exercise	1 hour
Secondary	Relative decrease in glucose levels during exercise compared to pre-breakfast levels (sub-study)	Difference between pre-breakfast levels and the lowest glucose level from the start of the exercise until the end of exercise	2 or 3 hours
Secondary	Percentage of time of plasma glucose levels spent below 3.9 mmol/L (sub-study)	Pre-exercise period (from mealtime to exercise onset)	1 or 2 hours
Secondary	Percentage of time of plasma glucose levels spent below 3.3 mmol/L (sub-study)	Pre-exercise period (from mealtime to exercise onset)	1 or 2 hours
Secondary	Percentage of time of plasma glucose levels spent below 3.0 mmol/L (sub-study)	Pre-exercise period (from mealtime to exercise onset)	1 or 2 hours
Secondary	Percentage of time of plasma glucose levels spent between 3.9 and 10.0 mmol/L (sub-study)	Pre-exercise period (from mealtime to exercise onset)	1 or 2 hours
Secondary	Percentage of time of plasma glucose levels spent above 10.0 mmol/L (sub-study)	Pre-exercise period (from mealtime to exercise onset)	1 or 2 hours
Secondary	Percentage of time of plasma glucose levels spent above 13.9 mmol/L (sub-study)	Pre-exercise period (from mealtime to exercise onset)	1 or 2 hours
Secondary	Percentage of time of plasma glucose levels spent above 16.7 mmol/L (sub-study)	Pre-exercise period (from mealtime to exercise onset)	1 or 2 hours
Secondary	Percentage of time of plasma glucose levels spent below 3.9 mmol/L (sub-study)	Exercise period	1 hour
Secondary	Percentage of time of plasma glucose levels spent below 3.3 mmol/L (sub-study)	Exercise period	1 hour
Secondary	Percentage of time of plasma glucose levels spent below 3.0 mmol/L (sub-study)	Exercise period	1 hour
Secondary	Number of patients experiencing hypoglycemia requiring treatment (sub-study)	Exercise period	1 hour
Secondary	Percentage of time of plasma glucose levels spent between 3.9 and 10.0 mmol/L (sub-study)	Exercise period	1 hour
Secondary	Percentage of time of plasma glucose levels spent above 10.0 mmol/L (sub-study)	Exercise period	1 hour
Secondary	Percentage of time of plasma glucose levels spent above 13.3 mmol/L (sub-study)	Exercise period	1 hour
Secondary	Percentage of time of plasma glucose levels spent above 16.7 mmol/L (sub-study)	Exercise period	1 hour
Secondary	Percentage of time of plasma glucose levels spent below 3.9 mmol/L (sub-study)	Post-exercise period	1.5 hour
Secondary	Percentage of time of plasma glucose levels spent below 3.3 mmol/L (sub-study)	Post-exercise period	1.5 hour
Secondary	Percentage of time of plasma glucose levels spent below 3.0 mmol/L (sub-study)	Post-exercise period	1.5 hour
Secondary	Percentage of time of plasma glucose levels spent between 3.9 and 10.0 mmol/L (sub-study)	Post-exercise period	1.5 hour
Secondary	Percentage of time of plasma glucose levels spent above 10.0 mmol/L (sub-study)	Post-exercise period	1.5 hour
Secondary	Percentage of time of plasma glucose levels spent above 13.3 mmol/L (sub-study)	Post-exercise period	1.5 hour
Secondary	Percentage of time of plasma glucose levels spent above 16.7 mmol/L (sub-study)	Post-exercise period	1.5 hour
Secondary	Number of patients experiencing hypoglycemia requiring treatment (sub-study)	Overall study period	3.5 or 4.5 hours
Secondary	Mean time (minutes) to the first hypoglycemic event (sub-study)	Exercise period	1 hour