The changes in blood glucose during weights exercise in individuals with type 1 diabetes, with a view to improve exercise-associated fluctuations in blood glucose
- Conditions
- Type 1 diabetesNutritional, Metabolic, EndocrineInsulin-dependent diabetes mellitus
- Registration Number
- ISRCTN60407046
- Lead Sponsor
- Swansea University (UK)
- Brief Summary
Not available
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- Completed
- Sex
- All
- Target Recruitment
- 12
1. Male and female, aged between 18 and 60 years
2. Regularly active (i.e. partake in physical activities 3+ times per week)
3. Free from any diabetes complications other than mild background retinopathy
4. Not taking any prescribed medication other than insulin
5. Are treated with a stable insulin regimen composed of a combination of slow acting insulin (e.g. glargine) and rapid-acting insulin analogues for 3+ months before the study.
Race, gender, ethnic origin, nationality, religion or beliefs and sexual orientation were not used as exclusion factors for this investigation.
In an effort to improve homogeneity in data, volunteers were excluded if they were:
1. Aged less than 18 years or over 60 years
2. Physically inactive (i.e. partake in physical activities less than 3 times per week)
3. Suffered from any diabetes complications apart from background diabetic retinopathy
4. Taking any prescribed medication other than insulin
5. On a non-stable insulin regimen for less than 3 months
Study & Design
- Study Type
- Interventional
- Study Design
- Not specified
- Primary Outcome Measures
Name Time Method To determine a strategy that improves the stability of blood glucose in response to resistance exercise. To this end, blood glucose concentrations were measured following different volume and intensity resistance exercise sessions. From this data, a dose of exogenous insulin that best alleviated exercise-induced glycaemic disturbances was determined. Blood glucose was measured on a metabolic analyser (GEM Premier 3000; Instrumentation Laboratories, UK).
- Secondary Outcome Measures
Name Time Method Blood and serum metabolites (pH and lactate, cortisol, glucagon, catecholamines, serum insulin, growth hormone, interleukin-6, nonesterified fatty acids and creatine kinase) responses before, during and after different resistance exercise sessions with and without an glucose management strategy<br><br>Blood pH, lactate, extra-cellular fluid base-excess and K+ were analysed on a metabolic analyser (GEM Premier 3000; Instrumentation Laboratories, UK). Remaining venous blood from each sample were centrifuged for plasma and stored at -80°C for later determination of insulin (Invitron, UK), creatine kinase (ILab 300 Plus, UK), ß-hydroxybutyrate (D-3-hydroxybutyrate; Randox Laboratories Ltd, Co. Antrim, UK), catecholamines (ELISA; Eagle Biosciences Inc, Nashua, NH, USA), growth hormone, IL-6 and cortisol (ELISA; RnD Systems, Minneapolis, MN, USA).