Enhancement of intragastric acid stability of a fat emulsion meal delays gastric emptying and increases cholecystokinin release and gallbladder contraction

Preprocessed fatty foods often contain calories added as a fat emulsion stabilized by emulsifiers. Emulsion stability in the acidic gastric environment can readily be manipulated by altering emulsifier chemistry. We tested the hypothesis that it would be possible to control gastric emptying, CCK rel...

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Bibliographic Details
Published in:American journal of physiology: Gastrointestinal and liver physiology 2007-06, Vol.292 (6), p.G1607-G1613
Main Authors: Marciani, Luca, Wickham, Martin, Singh, Gulzar, Bush, Debbie, Pick, Barbara, Cox, Eleanor, Fillery-Travis, Annette, Faulks, Richard, Marsden, Charles, Gowland, Penny A, Spiller, Robin C
Format: Article
Language:English
Subjects:
Administration, Oral
Adult
Cholecystokinin - blood
Diet
Dietary Fats, Unsaturated - administration & dosage
Dietary Fats, Unsaturated - pharmacokinetics
Dietary Fats, Unsaturated - pharmacology
Digestive system
Emulsifying Agents - chemistry
Emulsions
Food
Gallbladder
Gallbladder Emptying - drug effects
Gastric Acid - metabolism
Gastric Emptying - drug effects
Gastric Mucosa - metabolism
Hexoses - chemistry
Humans
Magnetic Resonance Imaging
Male
Oils & fats
Olive Oil
Plant Oils - administration & dosage
Plant Oils - pharmacokinetics
Plant Oils - pharmacology
Polysorbates - chemistry
Postprandial Period
Satiety Response - drug effects
Stomach - drug effects
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Summary:Preprocessed fatty foods often contain calories added as a fat emulsion stabilized by emulsifiers. Emulsion stability in the acidic gastric environment can readily be manipulated by altering emulsifier chemistry. We tested the hypothesis that it would be possible to control gastric emptying, CCK release, and satiety by varying intragastric fat emulsion stability. Nine healthy volunteers received a test meal on two occasions, comprising a 500-ml 15% oil emulsion with 2.5% of one of two emulsifiers that produced emulsions that were either stable (meal A) or unstable (meal B) in the acid gastric environment. Gastric emptying and gallbladder volume changes were assessed by MRI. CCK plasma levels were measured and satiety scores were recorded. Meal B layered rapidly owing to fat emulsion breakdown. The gastric half-emptying time of the aqueous phase was faster for meal B (72 +/- 13 min) than for meal A (171 +/- 35 min, P < 0.008). Meal A released more CCK than meal B (integrated areas, respectively 1,095 +/- 244 and 531 +/- 111 pmol.min.l(-1), P < 0.02), induced a greater gallbladder contraction (P < 0.02), and decreased postprandial appetite (P < 0.05), although no significant differences were observed in fullness and hunger. We conclude that acid-stable emulsions delayed gastric emptying and increased postprandial CCK levels and gallbladder contraction, whereas acid-instability led to rapid layering of fat in the gastric lumen with accelerated gastric emptying, lower CCK levels, and reduced gallbladder contraction. Manipulation of the acid stability of fat emulsion added to preprocessed foods could maximize satiety signaling and, in turn, help to reduce overconsumption of calories.
ISSN:0193-1857
1522-1547
DOI:10.1152/ajpgi.00452.2006