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Satiety and energy intake after single and repeated exposure to gel-forming dietary fiber: post-ingestive effects

Background: Viscous or gel-forming dietary fibers can increase satiety by a more firm texture and increased eating time. Effects of viscous or gel-forming fibers on satiety by post-ingestive mechanisms such as gastric emptying, hormonal signals, nutrient absorption or fermentation are unclear. Moreo...

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Bibliographic Details
Published in:International Journal of Obesity 2014-06, Vol.38 (6), p.794-800
Main Authors: Wanders, A J, Mars, M, Borgonjen-van den Berg, K J, de Graaf, C, Feskens, E J M
Format: Article
Language:English
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Summary:Background: Viscous or gel-forming dietary fibers can increase satiety by a more firm texture and increased eating time. Effects of viscous or gel-forming fibers on satiety by post-ingestive mechanisms such as gastric emptying, hormonal signals, nutrient absorption or fermentation are unclear. Moreover, it is unclear whether the effects persist after repeated exposure. Objective: To investigate satiety and energy intake after single and repeated exposure to gelled fiber by post-ingestive mechanisms. Design: In a two-arm crossover design, 32 subjects (24 female subjects, 21±2 y, BMI 21.8±1.9 kg m −2 ) consumed test foods once daily for 15 consecutive days, with 2 weeks of washout. Test foods were isocaloric (0.5 MJ, 200 g) with either 10 g gel-forming pectin or 3 g gelatin and 2 g starch, matched for texture and eating time. Hourly satiety ratings, ad libitum energy intake and body weight were measured on days 1 (single exposure) and 15 (repeated exposure). In addition, hourly breath hydrogen, fasting glucose, insulin, leptin and short-chain fatty acids were measured. Results: Subjects rated hunger, desire to eat and prospective intake about 2% lower ( P 0.64). After receiving pectin, energy intake was lower (−5.6%, P =0.012) and breath hydrogen was elevated (+12.6%, P =0.008) after single exposure, but not after repeated exposure. Fasting glucose concentrations were higher both after single and repeated exposure to pectin (+2.1%, P =0.019). Body weight and concentrations of insulin, leptin and short-chain fatty acids did not change during the study. Conclusions: Gelled pectin can increase satiety and reduce energy intake by post-ingestive mechanisms. Although the effects were small, the effects on satiety were consistent over time, whereas the effects on energy intake reduction were not.
ISSN:0307-0565
1476-5497
DOI:10.1038/ijo.2013.176