Peer-reviewed veterinary case report
How oligofructose and inulin affect glucose in obese and normal cats
By Verbrugghe, Adronie et al.·Published in The British journal of nutrition·2009·Faculty of Veterinary Medicine·View original on PubMed →
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Original publication title: Oligofructose and inulin modulate glucose and amino acid metabolism through propionate production in normal-weight and obese cats.
- Species:
- cat
Plain-English summary
A study looked at how adding prebiotics like oligofructose and inulin to the diets of obese and non-obese cats affected their sugar and protein processing. Eight obese cats and eight non-obese cats were fed two different diets over a period of time. The results showed that obese cats had a harder time managing their blood sugar levels compared to non-obese cats, but the prebiotic diet did help reduce some markers related to protein breakdown. Overall, while the prebiotic diet didn't completely fix the glucose issues in obese cats, it did suggest some benefits in how their bodies processed nutrients.
People also search for: cat obesity diet · prebiotics for cats · how to manage cat blood sugar · cat insulin response to food
Abstract
The effect of dietary oligofructose and inulin supplementation on glucose metabolism in obese and non-obese cats was assessed. Two diets were tested in a crossover design; a control diet high in protein (46 % on DM basis), moderate in fat (15 %), low in carbohydrates (27 %), but no soluble fibres added; and a prebiotic diet, with 2.5 % of a mixture of oligofructose and inulin added to the control diet. Eight non-obese and eight obese cats were allotted to each of two diets in random order at intervals of 4 weeks. At the end of each testing period, intravenous glucose tolerance tests were performed. Area under the glucose curve (AUCgluc) was increased (P = 0.022) and the second insulin peak was delayed (P = 0.009) in obese compared to non-obese cats. Diets did not affect fasting plasma glucose concentrations, blood glucose response at each glucose time-point after glucose administration, AUCgluc, fasting serum insulin concentrations, area under the insulin curve, and height and appearance time of insulin response. Yet, analysis of acylcarnitines revealed higher propionylcarnitine concentrations (P = 0.03) when fed the prebiotic diet, suggesting colonic fermentation and propionate absorption. Prebiotic supplementation reduced methylmalonylcarnitine (P = 0.072) and aspartate aminotransferase concentrations (P = 0.025), both indicating reduced gluconeogenesis from amino acids. This trial evidenced impaired glucose tolerance and altered insulin response to glucose administration in obese compared to non-obese cats, regardless of dietary intervention; yet modulation of glucose metabolism by enhancing gluconeogenesis from propionate and inhibition of amino acid catabolism can be suggested.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/19267948/