Dose-Dependent Effects of Turmeric ( Curcuma aromatica S.) Starch on Colonic Fermentation in Rats

Background; Turmeric starch (TS) has gained significant attention due to its potential health benefits. Rich in resistant starch (RS) and higher in phosphorus, TS is anticipated to possess properties of high-phosphorus-type RS. Objectives; To understand the host physiology of TS, this study investig...

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Published in:Metabolites 2024-10, Vol.14 (11), p.572
Main Authors: Ekanayake, Ekanayake Mudiyanselage Asanka Chamara, Ishii, Ryota, Nagata, Ryuji, Shimada, Ken-Ichiro, Han, Kyu-Ho, Fukushima, Michihiro
Format: Article
Language:English
Subjects:
acetate
Acetates
Acetic acid
Alkaline phosphatase
Body weight
Body weight gain
Breath tests
Cecum
Cellulose acetate
Diet
Dosage and administration
Energy
Enzymes
Ethylenediaminetetraacetic acid
Fatty acids
Feces
Fermentation
Glucose
gut microbiota
Immunoglobulin A
Intestinal microflora
Laboratory animals
Lipids
Metabolism
Microbiota
Microbiota (Symbiotic organisms)
Mucins
Nutrition research
Phosphatases
Phosphorus
Phosphorus content
Physiological aspects
Small intestine
Starch
turmeric starch
visceral fat
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Summary:Background; Turmeric starch (TS) has gained significant attention due to its potential health benefits. Rich in resistant starch (RS) and higher in phosphorus, TS is anticipated to possess properties of high-phosphorus-type RS. Objectives; To understand the host physiology of TS, this study investigated the dose-dependent effects of TS on colonic fermentation in rats. Methods; Four experimental diets containing different levels of TS (5%, 10%, and 20% / ) were formulated and fed to male Fischer 344 rats for two weeks and compared with rats fed a 0% TS diet (TS0). Results; Results showed that increasing the dose of TS resulted in reduced body weight gain, lower visceral tissue weight, and increased cecal mucin and IgA levels compared with the TS0 group. Further, fecal dry weight increased dose-dependently parallel to the starch excretion rate. Higher doses of TS resulted in increased short chain fatty acid (SCFA) production, specifically cecal acetate content, as well as in a dose-dependent decrease in the cecal pH level. However, this study did not observe a positive effect of TS on colonic alkaline phosphatase (ALP) activity, and the impact on small intestinal ALP activity remains unclear. Notably, beneficial bacteria such as the family , genus group, and spp. were found to have been enriched in the TS-fed groups, further supporting the beneficial effects of TS on gut microbiota and SCFA production. Additionally, the genus , which is known to possess beneficial and opportunistic pathogenic traits under immunocompromised states, was found in the TS-fed groups. Conclusions; According to these results, it is clear that TS served as a prebiotic substrate in rats, with a notable modulation of the microbial composition.
ISSN:2218-1989
2218-1989
DOI:10.3390/metabo14110572