Effect of inulin and oligofructose enrichment of the diet on rats suffering thiamine deficiency

Summary Thiamine deficiency resulted in inhibition of two main pathways supplying energy to the tissues: glycolysis and β‐oxidation. Glycolysis was found to be inhibited to 40% of initial value calculated on the basis of RBC trans‐membrane transport of glucose. Prolongation of experiment cause lower...

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Bibliographic Details
Published in:Journal of animal physiology and animal nutrition 2011-06, Vol.95 (3), p.335-342
Main Authors: Dębski, B., Kurył, T., Gralak, M. A., Pierzynowska, J., Drywień, M.
Format: Article
Language:English
Subjects:
Animal Feed - analysis
Animals
Diet
Dietary Supplements
Glucose
Glucose - metabolism
glucose uptake
Insulin
Inulin - therapeutic use
Muscular system
oligofructans
Oligosaccharides - therapeutic use
Rats
Rodents
thiamine deficiency
Thiamine Deficiency - drug therapy
Vitamin B
β-oxidation
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Summary:Summary Thiamine deficiency resulted in inhibition of two main pathways supplying energy to the tissues: glycolysis and β‐oxidation. Glycolysis was found to be inhibited to 40% of initial value calculated on the basis of RBC trans‐membrane transport of glucose. Prolongation of experiment cause lowering of uptake of this sugar. In rats, energy production from fatty acids (FA) seems to be less sensitive to thiamine deficiency than glycolysis. After 30 days of feeding, utilization of FA in rats was depressed to the 61% of initial value. Thiamine deficiency suppressed insulin secretion, and the changes were statistically significant. Feeding of rats with thiamine restricted diet for 1 month caused the reduction of serum insulin by 14%. In the same animals, trans‐membrane glucose transport was reduced over two‐times, what might suggest a decreased efficiency of insulin action in such conditions. The kind and concentration of non‐digestible fructo‐oligosaccharides (FOS) did not affect significantly serum insulin concentration in animals fed thiamine restricted diet. Substitution of a part of wheat starch with FOS has only insignificant compensatory effect on the uptake of glucose. A partial amelioration of the β‐oxidation inhibition caused by feeding rats with thiamine deficient diet was observed in animals supplemented with FOS. However, this effect was statistically significant only in rats receiving diet containing 10% of inulin. The effect of supplemented FOS and their concentration on trans‐membrane glucose transport in RBC was statistically significant, when pulled supplementation groups were used for statistical evaluation.
ISSN:0931-2439
1439-0396
DOI:10.1111/j.1439-0396.2010.01059.x