Physicochemical Properties and Intestinal Health Promoting Water-Insoluble Fiber Enriched Fraction Prepared from Blanched Vegetable Soybean Pod Hulls

Different methods can be used to change the fiber compositions of food, and they consequently affect the physicochemical properties and physiological activities. The present study compared the effects of a blanching treatment on the physicochemical properties of water-insoluble fiber enriched fracti...

Full description

Saved in:
Bibliographic Details
Published in:Molecules (Basel, Switzerland) Switzerland), 2019-05, Vol.24 (9), p.1796
Main Authors: Huang, Ya-Ling, Hsieh, I-Ting
Format: Article
Language:English
Subjects:
Ammonia
Ammonia - analysis
Animals
Blanching
By products
Cation exchanging
Cation-exchange capacity
Cecum
Cecum - physiology
Cell walls
Cellulose
Chemical Phenomena
Cricetinae
Diet
Dietary fiber
Dietary Fiber - analysis
Enzymes
Fatty Acids, Volatile - analysis
fecal enzyme activity
Feces
Feces - chemistry
Feces - microbiology
Food
Food composition
Food industry
Glucosidase
Glycine max - chemistry
Hamsters
Hulls
Hydrogen-Ion Concentration
Intestine
Intestines - physiology
Microbiota
Microorganisms
Monosaccharides - analysis
Mucinase
Physicochemical properties
Physiological effects
Physiology
Retention
Retention capacity
short-chain fatty acids
Solubility
soluble dietary fiber
Soybeans
Sugar
Tea
Urease
vegetable soybean pod hull
Vegetables
Vegetables - chemistry
Water - chemistry
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Different methods can be used to change the fiber compositions of food, and they consequently affect the physicochemical properties and physiological activities. The present study compared the effects of a blanching treatment on the physicochemical properties of water-insoluble fiber enriched fraction (WIFF) from three varieties of vegetable soybean pod hulls (tea vegetable soybean pod hull, TVSPH; black vegetable soybean pod hull, BVSPH; 305 vegetable soybean pod hulls, 305VSPH) and evaluated their effects on intestinal health in hamsters. Blanching may increase the soluble dietary fiber (SDF) content of WIFF in the 305VSPH variety by solubilizing cell wall components and releasing water-soluble sugars. Thus, the WIFF in the 305VSPH variety after blanching may be composed of cellulose and pectic substances. The WIFF of the blanched 305VSPH (B-305VSPH) variety exhibited the highest physicochemical properties, such as a water-retention capacity (11.7 g/g), oil-holding capacity (9.34 g/g), swelling property (10.8 mL/g), solubility (12.2%), and cation-exchange capacity (221 meq/kg), of the three varieties examined. The supplementation of B-305VSPH WIFF in the diet resulted in significantly ( < 0.05) lower cecal and fecal ammonia; activities of fecal β-d-glucosidase, β-d-glucuronidase, mucinase, and urease; as well as higher cecal total short-chain fatty acids relative to other diets. In addition, microbial analysis suggested that fecal bifidobacteria growth was enhanced by the consumption of B-305VSPH WIFF. Therefore, B-305VSPH WIFF may be applicable as a potential functional ingredient in the food industry for the improvement of intestinal health.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules24091796