Purpose: This study is carried out to determine the effect of GI on 24 hour blood glucose profiles and energy regulation in Asians when fed a normal diet modulated with sweeteners.
The GI is a method of classifying foods based on the food's ability to raise the blood glucose level. Low GI foods are recommended as they have a lower impact on blood glucose concentrations. The research sets out to determine the effect of GI on 24 hour blood glucose profiles and energy regulation in Asians. Healthy, normal-weight and overweight, Chinese males will be recruited. There will be two sessions (consisting of three days for each session) where they will consume either a high or low glycaemic index dinner at home and a high or low GI breakfast, lunch and snack on the next day (in the whole body calorimeter). There will be at least five days in between the two sessions. Their glycaemic response will be measured using a Continuous Glucose Monitoring System (CGMS) throughout the period, while substrate oxidation will be measured over 10 hours in the calorimeter (from breakfast, lunch and snack). This study specifically attempts to see whether the inclusion of a low GI sweetener in a mixed meal sequence can impact blood glucose levels and energy regulation in Asians. The study is important in that it will enable us to compute the rate of fat oxidation and how it is influenced when subjects are fed a mixed meals modulated to be high GI (increased glucose excursions) or low GI (moderated glucose) over 24 hours in healthy Asians. Obesity and diabetes rates are increasing exponentially in Asian populations and Singapore is no exception. Devising ways and means to staunch the escalation is therefore a priority. The findings of the research will contribute towards the long-term objectives of developing dietary guidelines for weight and glycaemic control. The study data will also be important for the provision of practical food-based advocacy for better weight and glycaemic control in Asians.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
DOUBLE
Enrollment
20
Low GI sweetener would be added to the treatment meals. 30 grams of isomaltulose to dinner and breakfast and 20 grams of isomaltulose to lunch and snack.
High GI sweetener would be added to the treatment meals. 30 grams of sucrose to dinner and breakfast and 20 grams of sucrose to lunch and snack.
Clinical Nutrition Research Centre
Singapore, Singapore
Glycaemic response
The blood glucose response to low and high GI test foods measured 2 hours post consumption using the Continuous Glucose Monitoring System (CGMS)
Time frame: 3 hours post consumption
Daily blood glucose profile
The daily total blood glucose response is measured for each low and high GI treatment as the area under the curve over 24 hours using CGMS for breakfast, lunch, snack and dinner.
Time frame: 24 hours
substrate oxidation
Carbohydrate, fat and protein oxidation and respiratory quotient after consumption of low and high GI test foods are calculated for the 3 hours postprandial after breakfast, lunch and snack. These are calculated from the oxygen consumption, carbon dioxide production and nitrogen production. These sub-measurements are specified under: Other Pre-specified Outcomes: Oxygen consumption, carbon dioxide production, nitrogen production.
Time frame: 3 hours post consumption
energy expenditure
Energy expenditure after consumption of low and high GI test foods is calculated for the 3 hours postprandial after breakfast, lunch and snack. This is calculated from the oxygen consumption and carbon dioxide production. These sub-measurements are specified under: Other Pre-specified Outcomes: Oxygen consumption, carbon dioxide production.
Time frame: 3 hours post consumption
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