Organoleptic and nutritional evaluation of wheat breads supplemented with soybean and barley flour

Supplementations of soy (full fat and defatted) and barley flours to wheat flours at 5, 10, 15 and 20% levels were carried out to test the effects on organoleptic and nutritional evaluation of the supplemented bread. Additions of 15% barley flour, 10% soy flour (full fat and defatted), 15% barley plus full fat soy flour and 15% barley plus defatted soy flour to wheat flour produced acceptable breads. However, substitution of soy (full fat and defatted) and barley flours to wheat flour separately and in combinations at 20% levels did not produce organoleptically acceptable bread. Various nutritional parameters, such as protein, fat, total lysine, protein digestibility (in vitro), sugars, starch digestibility (in vitro), total and available minerals, antinutrients, dietary fibre and β-glucan were determined in supplemented and control bread. Increasing the level of substitution from 5 to 10% of full fat and defatted soy flour to wheat flour significantly (P<0.05) increased protein (from 12.1 to 13.7 and 12.4 to 13.8%), lysine (from 2.74 to 3.02 and 2.76–3.05 mg/100 g protein) and total calcium (from 70.2 to 81.4 and 71.9–81.8 mg/100 g) contents. However, there was also an increase in phytic acid (238–260 and 233–253 mg/100 g), polyphenol (324–331 and 321–329 mg/100 g) and trypsin inhibitor activity (193–204 and 193–198 TIU/g). When barley flour was substituted separately, and in combinations, with full fat and defatted soy flour up to 15%, this significantly increased the contents of protein, total lysine, dietary fibre and β-glucan. It may be concluded that breads supplemented with barley and defatted soy flour, up to a 15% level, are organoleptically and nutritionally acceptable.     

Sensory and Nutritional Evaluation of Wheat Bread Supplemented with Single Cell Protein from Torula Yeast (Candida utilis)

Experimental breads were made with 2, 4, 6, 8, 10, and 12% torula yeast flour (TYF). Taste panels found that bread fortified with 8% TYF was acceptable. Eight percent TYF raised protein content from 12.42% for all wheat flour bread to 14.22% for supplemented bread. Amino acid analyses indicated a marked increase in amino acid content especially lysine. The protein efficiency ratio (PER) for rats on all-wheat-flour bread was 1.3 1; replacing 8% of the wheat flour with TYF raised PER of supplemented bread to 2.28. Total carcass nitrogen retained by animals fed a diet containing supplemented bread was higher than that retained by rats whose protein was obtained from unsupplemented bread.     

Effect of flour blending on functional, baking and organoleptic characteristics of bread

Soybean (full‐fat and defatted) and barley flours were incorporated into wheat flour at 5, 10, 15 and 20% substitution levels. The gluten content, sedimentation value and water absorption capacity of the flour blends and the mixing time of the dough decreased with increase in the level of soybean and barley flour separately and in combinations. Protein and glutelin contents increased significantly on blending of soyflour (full‐fat and defatted) to bread wheat flour. The breads prepared from the blends also varied in their loaf weight, loaf volume and sensory characteristics. The bread volume decreased with increasing amount of non‐wheat flour substitution. The crumb colour changed from creamish white to dull brown and a gradual hardening of crumb texture was observed as the addition of soybean (full‐fat and defatted) and barley flours increased. At the higher levels, the acceptability declined because of the compact texture of the crumb and the strong flavour of the product. The addition of 10% of soyflour (full‐fat and defatted) or 15% of barley flour, full‐fat soy + barley or defatted soy + barley flour to bread flour produced acceptable bread.     

Effect of Rice, Corn and Soy Flour Addition on Characteristics of Bread Produced from Different Wheat Cultivars

Preparation and consumption of bread enriched with flours that contain appreciable amounts of protein, lysine, dietary fiber, and minerals will provide a healthy alternative to consumers and also a lowering of bread making cost in countries where wheat is not a major domestic crop. Addition of rice, corn, and soy flour to bread and durum wheat flours at 10, 20, 30, 40, 50% levels was carried out to examine the effects on the baking (specific volume, color, firmness) and sensory characteristics of bread. Dough rheological properties were also studied using Brabender Farinograph and Extensograph. Results of the present study suggest that incorporation of rice, corn, and soy in bread wheat flour up to a level of 10% (flour basis) and in durum wheat flour up to 20% produces bread without any negative effect in quality attributes such as color, hardness, and flavor and reasonable acceptance offering promising nutritious and healthy alternative to consumers. Increasing levels of substitution (30 and 50%) resulted in decreasing dough strength, extensibility, and loaf volume, due to the replacement of gluten by the added protein. Overall acceptability scores of these breads were found to be very low. The durum flour can be substituted with nongluten flours up to 10% more than the bread wheat flour because of its stronger gluten matrix and better dough rheological characteristics.     

Utilisation of press water from brewer's spent grains

Brewer's spent grain press water contains 3% solids, half of which can be removed by centrifugation. The clarified press water (CPW) obtained can be recycled to recover significant quantities of fermentable material. The beers obtained from adding CPW at 5, 10, and 20% levels to wort prior to boiling were judged indistinguishable from the control beer. This process constitutes an efficient recovery of soluble solids, saves water, and eliminates a serious water-pollution problem. Drying the sediment from centrifugation yielded a tan powder containing 50–55% protein which had a PER of 1.22 (casein 2.5). When this protein concentrate (PC) was extruded in combinations with soy, gluten, and/or wheat flour, it gave products that were suitable for extending hamburger meat. When it was used in cookies, (biscuits), the cookie spread and the quality of the top grain of the cookie was decreased. In bread, the PC increased the water absorption of the dough and substantially decreased overall bread quality.     

Effect of fortification of defatted soy flour on sensory and rheological properties of wheat bread

The objective of this study was to determine the effects of soy-fortified bread on the sensory and rheological properties. Ground defatted soy flour was blended with wheat flour at 3%, 7% and 12%. The organoleptic characteristics of soy-fortified wheat breads were carried out by taste panel. The effect of this fortification on the rheological properties of the resulting dough was investigated using farinograph and extensograph for quality assessment of the final product. The ash and protein contents of 3% and 7% wheat–soy bread blends increased compared with control. The results revealed that organoleptic characteristics score such as bendability, appearance, flavour and taste, crust texture and overall acceptability properties of bread containing 3% defatted soy flour was highest even though it is not significantly different. Therefore, we conclude that adding 3% or 7% defatted soy flour actually gives as good a loaf of bread as the 100% wheat bread with higher nutritional quality and acceptable consumer attitude with rheological and sensory characteristics.     

Nutritional Evaluation of Cereal–Cheese Whey Mixtures

The chemical composition, amino acid content, PER, and digestibility of dehydrated sweet cheese whey, wheat flour, wheat bran, and lime-treated corn flour (nixtamal, used for making tortillas), as well as of 21 cereal-cheese whey mixtures were determined. The cheese whey was composed of 12% protein and 74% lactose. Diets containing a total of 8% protein were formulated with the cereal-cheese whey mixtures. The 50:50 (% protein) cereal-whey mixtures had the highest adjusted modified PERs, representing an increase over the cereals alone of 324% for the corn flour, 215% for wheat flour, and 177% for wheat flour, and 177% for wheat bran. The 50:50 (% protein) wheat bran mixture had the largest adjusted modified PER at 2.33 ± 0.13 (mean ± SEM) and the 50:50 wheat flour mixture, the smallest at 1.48 ± 0.21. Although the apparent digestibility was reduced from 10–14% for the latter two 50:50 cereal-whey mixtures compared to the cereals alone, this was not reflected in the PER. It was concluded that the nutritive value of all the cereals tested significantly increased with the addition of 155 25% or more (by weight) of dehydrated cheese whey.     

Rat bioassay of the protein nutritional quality of soy-fortified sorghum biscuits for supplementary feeding of school-age children

BACKGROUND: Protein–energy malnutrition (PEM) remains a major deficiency disease among children in developing countries. The protein nutritional quality of soy‐fortified sorghum biscuits was evaluated with respect to their potential as a protein‐rich supplementary food. Three isonitrogenous diets based on 50:50 ratio decorticated sorghum:defatted soy flour biscuits, 100% sorghum biscuits, casein, and a protein‐free diet were fed to male Sprague Dawley weanling rats. RESULTS: Protein efficiency ratio (PER) for the sorghum–soy biscuit diet was equivalent to the reference casein diet, and zero for the 100% sorghum diet. Faecal bulk for 100% sorghum diet was 1.5 times higher than sorghum–soy and casein diets. True protein digestibility of the three diets was high—88–95%—agreeing with previous rat studies with sorghum. Biological value and net protein utilization of the sorghum‐soy biscuit diet were similar to the casein diet, but lower than the 100% sorghum biscuit diet CONCLUSION: Notwithstanding limitations of rat bioassay for assessing sorghum food protein quality, the high PER of defatted soy flour‐fortified sorghum biscuits (sorghum:soy 50:50 ratio) indicates they have considerable potential as a supplementary food to young children to alleviate PEM. Copyright © 2011 Society of Chemical Industry     

Supplementation of wheat flour with some local legumes

Egyptian bread made with broad bean flour, lentil flour, and wheat flour was scored for aroma, crust colour, crumb colour, texture, flavour and over-all acceptability by Egyptian judges. Protein quality of the bread was measured by a rat growth study. Analysis of variance for the data from the organoleptic evaluation was insignificant. The results indicate that broad bean flour could be added to wheat flour in making Egyptian Ballady bread up to 20% without affecting any of the tested characteristics. However, supplementation of wheat flour with more than 15% lentil flour might have some effect on flavour and hence on overall acceptability. The addition of 5, 10, 15 and 20% broad bean flour and lentil flour was accompained by an increase in the PER. It was clear that wheat flour supplemented with broad bean flour had a more pronounced effect on the PER at a 5 and 10% level of supplementation than that supplemented with lentil. The PER data were subjected to analysis of variance. At 1% level of significance the increase in PER for the 10, 15 and 20% broad bean breads was significant. Also the differences in the PERs between 5, 10 and 15% broad bean flour was significant. At 1% level of significance there was a significant difference in the PER values of bread made with 15 and 20% lentil flour. Incorporating broad bean flour into bread at a 20% level had a significant effect on the NPR at 1% and 5% level of significance. At 1% level of significance the only significant increase in NPR was noticed using the 20% level of lentil flour.     

PHYSICAL PROPERTIES OF SUGAR-SNAP COOKIES USING GRANULE SURFACE DEPROTEINATED WHEAT STARCH

The physical properties of soft wheat starch granule surface proteins and soy flours or isolates, which contribute to the texture of sugar‐snap cookies was studied. Soft wheat flour was deproteinated and cookies were produced containing 0, 10, 20 or 30% soy flour, or one of two types of ground, textured soy flour. Color, fracture force and spread ratio of cookies were determined. Cookies formulated with wheat starch stripped of the starch granule surface proteins exhibited significant alterations in diameter, fracture force, thickness and surface cracking. Cookies containing ground, textured soy flour and protein‐stripped starch granule wheat flour were larger, thinner and had more surface cracking than those produced with nontextured soy flour. Wheat starch granule surface proteins appear to partially mediate the interaction of proteins and starch in a sugar‐snap cookie system.     

Soybean Flour Lipoxygenase Isozymes Effects on Wheat Flour Dough Rheological and Breadmaking Properties

The effects of soy flour from LOX null mutant isolines and purified LOX isozymes on the rheological and breadmaking properties of a commercial hard wheat flour were investigated. Wheat flours were fortified with either 3% soy mutant flours alone, or in the presence of 0.2% and 1% linoleic acid. Purified LOX 2 isozyme had the greatest effect among LOX isozymes on dough extensibility and strength. Linoleic acid substrate addition reduced dough extensibility and strength. The L2L3 null isoline mutant for L1 resulted in the largest increase in bread volume. A reduction in bread firmness occurred after 5 day storage for all three single null mutant-containing samples in the presence of 1.0% linoleic acid substrate.     

Effect of Barley Flour on Quality of Balady Bread

Balady bread was prepared from barley flour (Rum and ACSAD 176 flour) with local wheat flour (Unified and Zero flour). Chemical, physical, and sensory analysis of the bread was performed. The results showed that there were variations in physical and chemical properties, between different barley varieties, barley flour, and the bread. This study showed that barley flour can be mixed with wheat flour to provide Balady bread that is acceptable to the consumer by 15 and 30%. Additional portions of barley flour resulted in harder bread, darker color, non uniform-shaped loaf, and unacceptable quality for the consumer. The results also showed a better quality of unified wheat flour compared to Zero wheat flour, which was mixed with barley flours; Rum and ACSAD 176 produced a better overall bread quality that was acceptable to the consumers.     

Effect of Lipid Extraction Process on Performance of Texturized Soy Flour Added Wheat Bread

ABSTRACT: Wheat breads were prepared to contain 0%, 2%, 6%, or 12% non-solvent extracted texturized soy flour (NSETSF) or solvent extracted texturized soy flour (SETSF) to evaluate their effects on instrumental and sensory characteristics. To compare the effects of added dough enhancers versus those contained in lip id-extracted soy flour, a sucrose ester was included in some formulations. Both soy flours produced comparable loaves relative to percent inclusion. Texture analysis and trained sensory panel evaluation indicated that SETSF loaves were softer than NSETSF loaves. The consumer panel found bread with 12% NSETSF similar to the control. Texturized, lipid-extracted soy flours added to wheat breads produced a "sucrose ester"-like property.     

THE EFFECTS OF FLAXSEED, SOY AND CORN FLOURS ON THE TEXTURAL AND SENSORY PROPERTIES OF A BAKERY PRODUCT

The objective of this study was to assess the effects of some healthy ingredients on the properties of a ring‐shaped bagel/pretzel‐type bakery product to offer an alternative product satisfying consumer demand. For this purpose, ground flaxseed, defatted soy flour and corn flour were blended at a weight basis with wheat flour at 5, 10 and 15%. The taste score decreased upon increasing the level of substitution of flaxseed, soy and corn flours. Samples containing 15% of flaxseed were rated poorest in taste. No significant difference was observed in crust color except 15% level of flaxseed. The control sample had highest crust color value. The crispness scores of control and other samples containing 5% corn flour were higher than that of other samples. The samples with 5% flaxseed flour had lower crust L values. Flaxseed, soy and corn flour showed significant effects on the hardness, cohesiveness, springiness, gumminess, fracture force and stiffness values (P < 0.05). Samples with 15% corn flour had the highest hardness value. The results of the present study suggest that flaxseed, soy and corn flours could be added to a typical snack formulation up to levels of 10% with a reasonable acceptance offering promising nutritious and healthy alternative to consumers.     

CORN MEAL/SOY FLOUR BLENDS: CHARACTERISTICS AND FOOD APPLICATIONS

SUMMARY –Protein quantity and quality of degermed corn meal were improved by supplementation with toasted defatted soy flour. Taste panel results indicated no significant change in preference, acceptability and similarity to corn meal when as much as 20% toasted defatted soy flour was contained in the blend. Flavor stability was adequate in blends containing toasted defatted, commercial processed full-fat or extrusion-cooked full-fat soy flours at the 15% level. Product color was changed more by the inclusion of toasted defatted than of full-fat soy flour in the blends. Satisfactory performance was found in chapatti and northern corn bread containing degermed corn meal with and without 15% toasted defatted, 20% commercial processed full-fat or 35% extrusion-cooked full-fat soy flours.     

Sensory Analysis of Whole Wheat/Soy Flour Breads

ABSTRACT: Breads containing 0% to 40% defatted soy flour, 35% to 100% whole wheat flour, and 0% to 35% white bread flour were prepared. Beany or bitter flavor ratings for the yeast-leavened breads containing up to 30% soy flour were not significantly different from the control whole wheat bread. A high-quality yeast was the most important factor in reducing the beany taste of the bread. Addition of ascorbic acid significantly increased yeasty flavor, and there was a strong inverse correlation between beany and sweet flavors. These studies suggest that an appealing, nutritious bread containing up to 30% to 40% soy flour can be prepared in an easy and economical manner using equipment available in home or institutional kitchens.     

大豆分离蛋白粉对面团流变学特性和馒头品质的影响研究

将大豆分离蛋白粉作为一种食品添加剂添加到小麦粉中,研究其对面团流变学特性和馒头品质的影响。实验结果得出,在小麦粉中添加大豆分离蛋白粉,可以明显地改善面团的稳定时间以及拉伸曲线面积和拉伸阻力。另外还可以提高馒头的品质,当在小麦粉中添加3%的大豆分离蛋白粉时,其对馒头品质有较好的改善作用。     

The Effect of Root Maturity, Preprocess Holding and Flour Storage on the Quality of Cassava Biscuit

Effect of root maturity (12 and 23 months) and flour storage on physical, chemical, and sensory attributes of cassava biscuits was evaluated. Pulp and flour of 12 months were higher than the 23 months mature roots. Moisture, crude protein, crude fat, and cyanide contents of the cassava flour varied between 10.1% and 10.3%, 2.2% and 2.4%, 0.2% and 0.3%, and 12.1 and 13.4 mg HCN/100 g, respectively. Diastatic activity of the flour ranged from 115 to 243 mg maltose for fresh and roots stored for 3 days. Water-holding capacity of the roots and peak viscosity of flours decreased during storage. Sensory results showed that cassava biscuits were acceptable and compared favorably with the wheat biscuits.     

Suitability of various australian wheats for chinese-style steamed bread

Three methods of preparation of steamed bread on a laboratory scale were evaluated to determine the one most suitable for discriminating between flour samples. The preferred method was then applied to a number of wheat varieties at different protein levels to select the most suitable ones for this product, and to determine the key analytical parameters of the most suitable flour. Flour colour and protein content appeared to be more important than other physical and chemical properties. Flour samples with high protein content (greater than 12%) and strong doughs gave bread with a wrinkled surface and dark colour, whereas low protein (less than 10%) soft wheat flours gave poor texture and eating quality, although the surface was smooth. It is suggested that flours of medium protein content (10–12%) and medium dough strength are the most suitable for steamed bread. Processing conditions affected steamed bread quality. Blending of high protein hard strong wheats with soft weak wheat could be practical for preparing flour for steamed bread.