Abstract
Dietary fiber is a nondigestible constituent of vegetal foods, formed by insoluble and soluble dietary fiber. The intake of dietary fiber, especially soluble dietary fiber, is limited and demands researcher's attention. The modification of cereal's dietary fiber, predominantly insoluble fiber, could be one possible solution. The current study evaluated the comparative effects of several thermal treatments on the modification of insoluble dietary fiber in barley and explored their therapeutic potential in vivo against hypercholesterolemia. The two cultivars of barley, Haider‐93 and Jau‐87, were thermally treated using different techniques, and dietary fiber was extracted. Successively, the intake of these dietary fibers was evaluated for its antilipidemic activity in normal and hypercholesterolemic rats. In the first phase, thermal treatments especially cooking without soaking increased the soluble fiber (68.08%). The roasting all increased the soluble fiber contents, however, at relatively lower rate (53.91%). The results of efficacy study revealed that biochemical parameters in control animals were within the normal clinical ranges, thus appraising the safe status of the experimental diets. The thermally treated barley fiber decreased total cholesterol (12.14%–12.63%), low‐density lipoprotein (14.12%–14.85%), and triglycerides (2.25%–4.32%). The study recorded increasing trends for high‐density lipoprotein in both normal and hypercholesterolemic rats. In the nutshell, thermal modification of dietary fiber increased the ratio of soluble to insoluble dietary fiber that improved its hypocholesterolemic potential. The thermally treated barley dietary fiber is effective in reducing the lipid profile in Sprague–dawley rats than untreated dietary fiber and, therefore, can be considered as a functional food and ingredient to cope different lifestyle diseases.
Highlights
Functional foods have captured great attention owing to the presence of an array of active ingredients
The soluble dietary fiber content was higher in Haider-93 (5.70 g/100g dm) than in Jau-87 (4.73 g/100g dm)
The content of insoluble dietary fiber was higher in Jau-87 (12.00 g/100g dm) than in Haider-93 (12.40 g/100g dm)
Summary
Functional foods have captured great attention owing to the presence of an array of active ingredients. Among these bioactive compounds, dietary fiber is acknowledged as a major functional ingredient due to its potential to combat different lifestyle disorders (Luithui, BaghyaNisha, & Meera, 2019; Zhang, Wang, Cao, & Wang, 2018). SDF is relatively more functional than IDF. Cereals and other grains contain the higher level of insoluble fiber as compared to soluble fiber. Barley contains relatively high soluble amounts of dietary fiber. Even if the cereal fiber is of low cost, its use in foods is considered relatively unsatisfactory due to its poor functionality. The need for some modification of its characteristics before incorporation into foods is evident (Borderias, Alonso, & Mateos, 2005; Veronese et al, 2018)
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