The purpose of this study is to compare the changes in blood lipids and feelings of satiety after consumption of acid stable or acid unstable oil-in-water emulsions in which the droplets are in either the liquid or partially solid (i.e. crystalline) states.
A double blinded randomized cross-over acute meal study will be carried out in which 15 healthy male participants will attend four study visits, separated by at least one week. On each study visit, fasted participants will consume either the emulsion with solid or liquid droplets and that is either acid stable or acid unstable, in a randomized order. All emulsions will have similar compositions, mainly differing in terms of droplet physical state, achieved by using lipids with different melting temperature. The emulsions will also contrast in terms of colloidal stability to acids, achieved by using different emulsifiers. This will isolate the impacts of physical state and acid stability, and their interactions. Postprandial lipemia, gastric emptying and satiety will be measured for 6 hours after consumption of each test beverage. The study meals will include crushed acetaminophen, the appearance of which will be measured in plasma as a measure of liquid content gastric emptying. It will also include periodic measurements of the gastric antrum area by ultrasound to assess the rate of gastric emptying. Participants will be asked to maintain their usual lifestyle habits throughout the study, with some changes in the 48 hour period leading up to each of the four visits.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
DOUBLE
Enrollment
15
This will be a 250 mL acid stable beverage emulsion in which the droplets are crystalline. It will have identical similar to the other intervention, i.e. in a set of samples the emulsion lipid droplets are in the liquid state and are either acid stable or unstable and, in the other set of samples they are solid (i.e. crystallized) and are also either acid stable or unstable in the acidic environment of the stomach, and will be introduced at least 7 days apart. The emulsion will contain 20% of the lipid palm stearin with 2.2% of the emulsifier sorbitan monooleate (Tween80)
This will be a 250 mL acid stable beverage emulsion in which the droplets are liquid. It will have identical similar to the other intervention, i.e. in a set of samples the emulsion lipid droplets are in the liquid state and are either acid stable or unstable and, in the other set of samples they are solid (i.e. crystallized) and are also either acid stable or unstable in the acidic environment of the stomach, and will be introduced at least 7 days apart. The emulsion will contain 20 % of the lipid palm olein with 2.2% of the emulsifier sorbitan monooleate (Tween80)
University of Guelph
Guelph, Ontario, Canada
Changes in triacylglycerol blood concentrations
Based on determination of fasting and postprandial blood triacylglycerol concentration (mmol/L)
Time frame: 6 hours
Participant visual analogue scale ratings of feelings of satiety
Visual analogue scale ratings of feelings of hunger, fullness, appetite, prospective food consumption, desire to eat, and nausea after consuming the emulsion beverage. 0: not hungry, empty, no appetite, very little food, no desire to eat and no nausea, and 10: very hungry, very full, high appetite, a lot of food, very strong desire to eat and very nauseated. The distance from the left end of the scale will be measured (cm)
Time frame: 6 hours
Rate of gastric emptying by measuring the changes in acetaminophen blood concentrations
The rate of appearance of acetaminophen (consumed crushed in water immediately after test meal) in the plasma will be determined (mg/L)
Time frame: 6 hours
Changes in fatty acid concentration of blood triacylglycerols
Analysis based on fasting and postprandial blood sample analysis (mmol/L)
Time frame: 6 hour
Changes in satiety hormone blood concentrations
Analysis of blood for Ghrelin, Leptin, GLP-1,PYY, GIP, and Insulin, at fasting and postprandially (pg/mL)
Time frame: 6 hours
Changes in concentrations of inflammatory blood markers (ug/mL)
Analysis of blood for CD14 and LBP at fasting and postprandially
Time frame: 6 hours
Rate of gastric emptying by measuring the change in the gastric antrum area
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This will be a 250 mL acid unstable beverage emulsion in which the droplets are solid. It will have identical similar to the other intervention, i.e. in a set of samples the emulsion lipid droplets are in the liquid state and are either acid stable or unstable and, in the other set of samples they are solid (i.e. crystallized) and are also either acid stable or unstable in the acidic environment of the stomach, and will be introduced at least 7 days apart. The emulsion will contain 20% of the lipid palm stearin with 2.5% of the emulsifier sorbitan monostearate (Span60)
This will be a 250 mL acid unstable beverage emulsion in which the droplets are liquid. It will have identical similar to the other intervention, i.e. in a set of samples the emulsion lipid droplets are in the liquid state and are either acid stable or unstable and, in the other set of samples they are solid (i.e. crystallized) and are also either acid stable or unstable in the acidic environment of the stomach, and will be introduced at least 7 days apart. The emulsion will contain 20 % of the lipid palm olein with 2.5% of the emulsifier sorbitan monostearate (Span60)
Determined by measuring the cross-sectional area of the gastric antrum using ultrasound (cm\*cm)
Time frame: 6 hours
Changes in glucose blood concentrations
Based on determination of fasting and postprandial blood glucose (mg/dL)
Time frame: 6 hour