Effect of feeding a high‐carbohydrate or a high‐fat diet on subsequent food intake and blood concentration of satiety‐related hormones in dogs

Summary Although studies in rodents and humans have evidenced a weaker effect of fat in comparison to carbohydrates on the suppression of food intake, very few studies have been carried out in this field in dogs. This study investigates the effects of a high‐carbohydrate (HC) and a high‐fat (HF) die...

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Published in:Journal of animal physiology and animal nutrition 2018-02, Vol.102 (1), p.e21-e29
Main Authors: Schauf, S., Salas‐Mani, A., Torre, C., Jimenez, E., Latorre, M. A., Castrillo, C.
Format: Article
Language:English
Subjects:
Animals
Beagle
Blood
Blood Glucose
Blood levels
Carbohydrates
Diet
Diet, High-Fat
Dietary Carbohydrates - pharmacology
dietary fat
Dietary Fats - pharmacology
Dietary Fiber - pharmacology
Dogs
Dry matter
Eating - drug effects
Eating - physiology
Energy Intake - physiology
Energy Metabolism
Energy requirements
Feeding
Female
Food
Food intake
Ghrelin
Ghrelin - blood
Glucagon
Glucose
gut hormones
High carbohydrate diet
High fat diet
Hormones
Insulin
Insulin - blood
Peptide YY - blood
Rodents
Satiety
short‐term satiety
Starch
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Summary:Summary Although studies in rodents and humans have evidenced a weaker effect of fat in comparison to carbohydrates on the suppression of food intake, very few studies have been carried out in this field in dogs. This study investigates the effects of a high‐carbohydrate (HC) and a high‐fat (HF) diets on subsequent food intake and blood satiety‐related hormones in dogs. Diets differed mainly in their starch (442 vs. 271 g/kg dry matter) and fat (99.3 vs. 214 g/kg dry matter) contents. Twelve Beagle dogs received the experimental diets at maintenance energy requirements in two experimental periods, following a cross‐over arrangement. In week 7 of each period, blood concentrations of active ghrelin, glucagon‐like peptide (GLP‐1), peptide YY, insulin, and glucose were determined before and at 30, 60, 120, 180, and 360 min post‐feeding. The following week, intake of a challenge food offered 180 min after the HC and HF diets was recorded over two days. In comparison to the dogs on the HC diet, those on the HF diet had a higher basal concentration of GLP‐1 (p = .010) and a higher total area under the curve over 180 min post‐prandial (tAUC0–180) (p = .031). Dogs on the HC diet showed a higher elevation of ghrelin at 180 min (p = .033) and of insulin at 360 min (p = .041), although ghrelin and insulin tAUC0–180 did not differ between the two diets (p ˃ .10). Diet had no effect on challenge food intake (p ˃ .10), which correlated with the tAUC0–180 of ghrelin (r = .514, p = .010), insulin (r = −.595, p = .002), and glucose (r = −.516, p = .010). Feeding a diet high in carbohydrate or fat at these inclusion levels does not affect the feeding response at 180 min post‐prandial, suggesting a similar short‐term satiating capacity.
ISSN:0931-2439
1439-0396
DOI:10.1111/jpn.12696