Abstract
Demand for health oriented products such as sugar-free, low calorie and high fiber products are increasing. One such recent trend is to increase the fiber content in food products to overcome health problems such as hypertension, diabetes, and colon cancer, among others. Chapatti is an important staple food consumed by majority of the population in the Indian subcontinent hence it can be a very good vehicle for fiber fortification. Fiber from natural sources such as wheat, soy fiber and type III resistant starch (RS) were used to study their impact on rheological characteristics of whole wheat flour dough and chapatti singly and in associated mixtures at different levels. D-optimal response surface methodology mixture design was applied to a mixture containing three ingredients: x1, wheat fiber, x2, soy fiber and x3, type III RS. The variation selected to each variable was based on values which were optimized on the basis of sensory properties and textural properties of chapatti, where x1, x2, x3 were changed from 2.5 to 5 g/100 g of whole wheat flour. For each of the response variables, model summarized F-tests and lack of fit tests which were then analyzed for linear or quadratic models. Three-dimensional response surface plots were generated for all quality parameter. Calculation of optimal processing conditions for optimum stickiness, strength, tear force and extensibility of dough and chapatti were performed using a multiple response method called desirability. Addition of wheat, soy fiber and type III RS in wheat flour mixture decreased dough stickiness and improved dough strength. Dough containing wheat fiber (2.5%), soy fiber (5.0%) and type III RS (2.5%) yielded highly acceptable chapattis in terms of textural properties such as low tear force values and high extensibility.
Highlights
Cereal fiber, which have a great proportion of insoluble fiber, have physiological advantages such as the chewing mechanism, stimulation of intestine function and influence on intestine transit period (Bollinger, 2000)
Worldwide, recommend a decrease in the consumption of animal fats and proteins and an increase of cereal intake, which is an important source of dietary fiber, and, in most European countries, cereals constitute a major source of dietary fiber
Soy fibers and type III resistant starch (RS) were added into whole wheat flour at three levels viz., 5, 10 and 15 % w/w of whole wheat flour
Summary
Cereal fiber, which have a great proportion of insoluble fiber, have physiological advantages such as the chewing mechanism, stimulation of intestine function and influence on intestine transit period (Bollinger, 2000). Worldwide, recommend a decrease in the consumption of animal fats and proteins and an increase of cereal intake, which is an important source of dietary fiber, and, in most European countries, cereals constitute a major source of dietary fiber In addition to these physiological properties, cereal fiber consisting mainly of cellulose have advantageous technological properties such as a high water and fat binding capacity and they are optimal ingredients for achieving high yields and reduced cost. Flour tortillas (soft tacos and tortillas, wraps, flat breads) with improved texture and nutritional characteristics were made using flour milled from specific barley cultivars with waxy starch characteristics and high levels of fiber (Ames et al 2003) To meet this requirement for dietary fiber, the development of enriched chapatti with a higher dietary fiber content could be a potential option. If for some reason, the sum of the component proportions is less than one, the variable proportions can be rewritten as scaled fractions so that the scaled fractions sum to one
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