Impact of Insulin Detemir Versus Insulin Glargine on Glycaemic Control and Metabolism During Exercise in Type 1 Diabetes
Overview
- Phase
- Phase 4
- Intervention
- Insulin detemir
- Conditions
- Diabetes Mellitus, Type 1
- Sponsor
- Buckinghamshire Healthcare NHS Trust
- Enrollment
- 30
- Locations
- 1
- Primary Endpoint
- Glucose excursion (which, as defined below, is the change in blood glucose between the start and finish of one hour of exercise)
- Last Updated
- 14 years ago
Overview
Brief Summary
Exercise is an important part of a healthy lifestyle, and many people with Type 1 Diabetes like to take part in regular sport and exercise. The majority of people with Type 1 Diabetes are treated with a "basal bolus" insulin regimen, with background insulin provided by long-acting "basal" insulin doses, and "bolus" doses of short-acting insulin used to accompany food intake. Evidence shows that the main factor preventing people with diabetes from pursuing a more active lifestyle is fear of low blood glucose (hypoglycaemia). A previous study has shown that the type of background insulin affects the likelihood of an individual suffering hypoglycaemia during exercise and for 2 and a half hours afterwards. The aim of this study is to examine this further.
The two most commonly used long-acting insulins, insulin glargine and insulin detemir, will be compared. Previous data suggests that there is a greater likelihood of hypoglycaemia with insulin glargine than insulin detemir. Exercise intensity can have an influence on the likelihood of hypoglycaemia, and in this previous study exercise intensity was measured using heart rate. This study will use a more formal definition of exercise intensity. The investigators will study blood glucose during exercise, but also metabolism as measured by hormones affecting blood glucose levels as well as markers of fat metabolism. The investigators will also use a continuous glucose monitoring system (CGMS) to consider hypoglycaemia on thei night following exercise as this is a recognised consequence of exercise in type 1 diabetes.
The null hypothesis to be tested in this study is that there is no difference between the two insulins in their effect on blood glucose levels and metabolism during exercise and rates of nocturnal hypoglycaemia after exercise.
Detailed Description
A1: At the first appointment, potential participants will be screened regarding the inclusion criteria, and if eligible to take part the study information sheet will be discussed with them in detail. Written, informed consent will be obtained if participants are willing to take part in the study. Participants will be given advice and support from this point in order to optimise basal insulin therapy using their usual basal insulin. A2: Following a period of at least 3 weeks from recruitment into the study, participants will have their maximal oxygen uptake (VO2 MAX - a measure of capacity for physical exercise) assessed. A3: After at least 4 weeks following recruitment , to allow time for optimisation of basal insulin therapy, and at least one week following A2, the participant's metabolism will then be assessed during and after 60 minutes of exercise at 50% VO2 MAX. Participants will be fitted with a continuous glucose monitoring system (CGMS) to monitor glucose levels for the 24 hours after exercise finishes. A4: At least 24 hours and no more than 7 days after A3 the participant will switched to using the other trial insulin for basal insulin therapy. Again, participants will be provided with advice and support in order to optimise treatment. A5: At least 4 weeks following A4, the participant's metabolism will once again be assessed during and after 60 minutes of exercise at 50% VO2 MAX. Participants will again be fitted with CGMS to monitor glucose levels for the 24 hours after exercise finishes. A6: Once the 24 hours after exercise are complete, the study finishes and participants re-start their usual basal insulin.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Participant is willing and able to give informed consent for participation in the study.
- •Male or Female, aged between 18 and 65 years
- •Diagnosed with Type 1 Diabetes Mellitus (T1DM)
- •HbA1c \< 10% or 86 mmol/mol
- •Treated with a basal bolus regimen using either insulin glargine or insulin detemir as the basal insulin
- •Exercising regularly for at least 1 hour per week on average
Exclusion Criteria
- •People with any one of the following complications of diabetes:
- •stage 2+ diabetic retinopathy
- •renal impairment (with creatinine \>150micromol/l)
- •known history or symptoms of cardiovascular disease
- •foot ulceration
- •peripheral vascular disease
- •Pregnancy or breastfeeding
- •Untreated or unstable respiratory disease
- •Known hypoglycaemia unawareness
- •Treatment with drugs known to interfere with glucose metabolism
Arms & Interventions
Insulin detemir
Metabolism during and after submaximal exercise during treatment with insulin detemir
Intervention: Insulin detemir
Insulin glargine
Metabolism during and after submaximal exercise during treatment with insulin glargine
Intervention: Insulin glargine
Outcomes
Primary Outcomes
Glucose excursion (which, as defined below, is the change in blood glucose between the start and finish of one hour of exercise)
Time Frame: Between baseline and 1 hour
The measure will be a comparison between the two conditions (treatment with insulin detemir or treatment with insulin glargine) of the change in blood glucose levels during one hour of sub-maximal exercise at 50% VO2 MAX
Secondary Outcomes
- Glucagon(0, 60 and 90 minutes)
- Lactate(0, 60 and 90 minutes)
- NEFA (Non-esterified fatty acids)(0, 60 and 90 minutes)
- B-OHB (beta-hydroxybutyrate)(0, 60 and 90 minutes)
- Catecholamines(0, 60 and 90 minutes)
- Human growth hormone (hGH)(0, 60 and 90 minutes)
- Cortisol(0, 60 and 90 minutes)
- IL-6 (interleukin 6)(0, 60 and 90 minutes)
- High sensitivity CRP (Hs-CRP)(0, 60 and 90 minutes)
- RQ (Respiratory Quotient)(Baseline and 1 hour)
- Frequency of hypoglycaemic events(24 hours)
- Time spent in hypoglycaemia(24 hours)
- Blood glucose(0, 10, 20, 30, 40, 50, 60, 70, 80, 90 minutes)