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Br J Nutr ; 114(10): 1550-9, 2015 Nov 28.
Article in English | MEDLINE | ID: mdl-26472475

ABSTRACT

Resistant glucan (RG) and hydrogenated resistant glucan (HRG) are newly developed non-digestible carbohydrate materials that decrease lifestyle-related diseases. The bioavailability of RG and HRG was investigated by in vitro experiments using human and rat small intestinal enzymes and by in vivo experiments using rats in the present study. Oligosaccharides, which are minor components of RG and HRG, were hydrolysed slightly by small intestinal enzymes of humans and rats, and the hydrolysing activity was slightly higher in rats than in humans. The amount of glucose released from HRG was greater than that from RG. However, the high-molecular-weight carbohydrates of the main components were hardly hydrolysed. Furthermore, neither RG nor HRG inhibited disaccharidase activity. When rats were raised on a diet containing 5 % of RG, HRG, resistant maltodextrin or fructo-oligosaccharide (FOS) for 4 weeks, all rats developed loose stools and did not recover during the experiment, except for the FOS group. Body weight gain was normal in all groups and was not significantly different compared with the control group. Caecal tissue and content weights were significantly increased by feeding RG or HRG, although other organ and tissue weights were not significantly different among the groups. In conclusion, RG and HRG consist of small amounts of glucose and digestible and non-digestible oligosaccharides, and large amounts of glucose polymers, which were hardly hydrolysed by α-amylase and small intestinal enzymes. RG and HRG, which were developed newly as dietary fibre materials, had no harmful effects on the growth and development of rats.


Subject(s)
Dietary Fiber/metabolism , Digestion , Glucans/metabolism , Animals , Cecum/anatomy & histology , Diarrhea/chemically induced , Dietary Carbohydrates , Disaccharidases/antagonists & inhibitors , Disaccharidases/metabolism , Glucans/adverse effects , Glucans/chemistry , Humans , Hydrogenation , Hydrolysis , Intestine, Small/enzymology , Male , Molecular Structure , Oligosaccharides/adverse effects , Oligosaccharides/metabolism , Organ Size , Polysaccharides/adverse effects , Polysaccharides/metabolism , Rats , Rats, Wistar , Weight Gain , alpha-Amylases/metabolism
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