Investigation of the Effects of Sedentary Behaviour and Moderate Exercise on Glucose Tolerance and Insulin Sensitivity
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Sedentary Lifestyle
- Sponsor
- University of Prince Edward Island
- Enrollment
- 6
- Locations
- 1
- Primary Endpoint
- Change in metabolomic response to a test meal
- Status
- Terminated
- Last Updated
- 5 years ago
Overview
Brief Summary
Individuals with pre-diabetes or diabetes would benefit from low impact methods that would improve their insulin sensitivity and aid in maintaining glucose homeostasis. Physical activity helps the body decrease its insulin resistance and burn excess sugar. Many diabetics also suffer from obesity and specific forms or durations of physical exercise may not be viable options for these individuals. Determining whether short bursts of moderate exercise improve blood glucose levels in healthy humans may identify a further method for diabetics to improve their glucose homeostasis.
The aim of this study is to determine the most effective moderate exercise that can be completed in 3 minutes and its effectiveness on improving glucose handling, in response to a single day of standardized high-fat and high-carbohydrate feeding in comparison to periods of prolonged sitting.
Investigators
Eligibility Criteria
Inclusion Criteria
- •BMI between 18-30 kg/m²
- •non-smoker
Exclusion Criteria
- •kidney disease
- •liver disease
- •cardiovascular disease
Outcomes
Primary Outcomes
Change in metabolomic response to a test meal
Time Frame: Pre-prandial and 3-hours post test meal through study completion
Targeted metabolomics analysis of approximately 139 metabolites in blood serum by LC-MS/MS to generate a metabolomic profile in response to a high-fat and high-carbohydrate test meal. Metabolites to be determined are categorized as biogenic amines, amino acids, histidines, carboxylic acids, acylcarnitines, glycerophospholipids and organic acids.
Change in concentration of C-peptide
Time Frame: Pre-prandial baseline (12 hours fasted) and 3 hours post-prandial on each of two testing days
The change in blood C-peptide levels from baseline (12 hours fasted) to 3-hours post-prandial will be determined from blood serum using a human metabolic hormone multiplex panel (Luminex xMAP technology).
Change in Insulin levels
Time Frame: Pre-prandial baseline (12 hours fasted) and 3 hours post-prandial on each of two testing days
The change in blood insulin levels from baseline (12 hours fasted) to 3-hours post-prandial will be determined from blood serum using a human metabolic hormone multiplex panel (Luminex xMAP technology).
Changes in blood glucose levels
Time Frame: Baseline and every 30-60 minutes over 3 hours (6 timepoints per test day)
Blood glucose levels will be determined at pre-prandial baseline and over the following 3-hour testing period using hand-held blood glucose meters.
Secondary Outcomes
- Immediate effects of short-term sedentary behaviour on cognitive function(3 hours post-activity (sedentary behaviour or exercise) on test days through study completion)
- Gene expression levels in isolated PBMC populations(Pre-prandial and 3 hours post-prandial on on test days through study completion)