Evaluation Quality of One Layer Flat Bread Supplemented with Beans and Sorghum Baked on Hot Metal Surface

Seleem, Hinar A.; Omran, Azza A.

doi:10.4236/fns.2014.522238

Cited by 19 publications

(27 citation statements)

References 28 publications

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“…Control bread had the highest content of carbohydrate (38.65%), while the bread enhanced with 15% SLSF had the lowest carbohydrate content (34.72%). These results are closed to those found by Seleem and Omran (2014), who reported that addition of beans caused an increased in ash and fiber contents of prepared bread.…”

Section: Proximate Chemical Compositioncontrasting

confidence: 89%

Evaluation of Sweet Lupin Seeds Flour Addition on Pan Bread Qualities

Abdel-Samie

Abdulla

2016

Journal of Food and Dairy Sciences

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In this study, the addition of Sweet lupin seeds flour (SLSF) in different levels (5, 10 and 15%) to wheat flour (WF) was evaluated. Dough mixing properties, bread physical characteristics and sensory properties were investigated. Increasing SLSF level in the SLSF-WF composites led to an increased water absorption, dough development time, C4 and setback torque, while it decreased flour moisture, dough stability, C2, C3 and C5 when analyzed by Mixolab. The SLSF-WF composites produced darker bread, lower specific volume, and harder crumb. Higher antioxidant activities, higher protein and minerals contents were scored by pan bread containing SLSF. Bread samples enhanced with SLSF (5, 10 and 15%) were accepted by panelists for their aroma, crust and crumb color, texture, taste and overall-acceptability. The best acceptability of bread was obtained by addition of 5% SLSF even compared to control wheat bread.

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Section: Proximate Chemical Compositioncontrasting

confidence: 89%

Evaluation of Sweet Lupin Seeds Flour Addition on Pan Bread Qualities

Abdel-Samie

Abdulla

2016

Journal of Food and Dairy Sciences

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“…This may imply that products that are made with partial substitution of WBF in wheat may be nutritionally advantageous compared to those made with wheat flour alone. There were significant differences (p < 0.05) in the ash, crude fat and crude protein contents of WBF and those of 100-wheat.The higher contents of protein, ash, and fibre in the WBF than 100-wheat recorded in this study are supported by the reports of Ramezani et al (2013) and Seleem and Omran (2014) who noted similar results in flours of beans and wheat..…”

Section: Discussionsupporting

confidence: 91%

“…White beans (Phaseolus vulgaris) are legumes, which are regarded as "poor man's meat". They supply protein, complex carbohydrates, fiber and essential vitamins and minerals to the diet, which are low in fat and sodium and contain no cholesterol (Seleem and Omran, 2014). The inclusion of legume, especially beans to cereal based products could be a good option for increasing nutritional intake of people.…”

Section: Introductionmentioning

confidence: 99%

Use of composite flours of wheat and white beans (Phaseolus vulgaris) in bread making: influence on quality indices

2016

App. Sci. Report

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The possible production of bread from flour mixtures of wheat and white beans was investigated in the present study. Flour mixtures were prepared from wheat and white beans in respective percentages of 95:5 (95Wt5wB), 90:10 (90Wt10wB), 85:15 (85Wt15wB) and 80:20 (80Wt20wB). Bread from whole wheat flour (100-wheat) served as control. Analysis of proximate compositions of the flour mixtures showed that there were higher values (%) of ash (1.43), crude fat (3.38) and crude protein (13.92) in 80Wt20wB than others. The highest values of 1.02 g/ml, 28.17 ml/g, 2.92%, 3.46 g/g and 7.21% were obtained for the functional properties of bulk density, foaming capacity, water absorption capacity, oil absorption capacity and swelling index respectively in 100-wheat flour. Gelation capacity was however higher (3.20 %w/v) in the 80Wt20wB flour than others. Pasting properties (RVU) indicated that highest peak viscosity, trough viscosity, breakdown viscosity, final viscosity and setback viscosity of 167, 81, 107, 822 and 92 respectively were recorded for the 100-wheat flour. Among the bread samples, highest contents (%) of ash (1.13), crude fibre (0.27), crude fat (0.98) and crude protein (7.18) were recorded for the 80Wt20wB bread sample. There was no significant difference (p > 0.05) between the 100-wheat and 95Wt5wB bread samples in the sensory attributes of colour/crust, aroma, appearance, texture, taste and general acceptability while no difference was also observed between the 100-wheat and 90Wt10wB bread samples in the attributes of appearance and texture. It was concluded that acceptable and nutritionally advantageous bread could be produced from flour mixtures of wheat and white beans. However, up to 10% supplementation of white bean flour in wheat is recommended in bread making as a result of their favourable comparison in sensory acceptability by panelists.

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“…DRSF gradually increased fiber contents to be 2.93, 3.6 and 4.25% in 5, 10 and 15% added DRSF, respectively. These results are closed to that found by Seleem & Omran (2014) who stated that bread enhanced with beans had the highest values in protein, ash and fiber compared with wheat and sorghum bread. Antioxidant activity:…”

Section: Proximate Chemical Compositioncontrasting

confidence: 99%

Effect of Roselle Seeds Flour Addition on the Quality Characteristics of Pan Bread

Abdulla

Abdel-Samie

2015

Journal of Food and Dairy Sciences

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The effect of defatted Roselle seeds flour (DRSF) addition at different levels (5, 10 and 15%) to wheat flour on the flour characteristics, dough rheological properties, bread chemical, physical and sensory characteristics were investigated. Mixolab analysis showed that the addition of DRSF led to a reduction in the flour water absorption and an increase in the dough development time and consequently decreased the dough stability compared to the control. Also, the addition of DRSF decreased the bread loaf volume and increased its protein and fibers contents and the antioxidant activity compared to the control. Sensory evaluation showed that all fortified bread samples were acceptable up to 10% DRSF.

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Evaluation Quality of One Layer Flat Bread Supplemented with Beans and Sorghum Baked on Hot Metal Surface

Cited by 19 publications

References 28 publications

Evaluation of Sweet Lupin Seeds Flour Addition on Pan Bread Qualities

Evaluation of Sweet Lupin Seeds Flour Addition on Pan Bread Qualities

Use of composite flours of wheat and white beans (Phaseolus vulgaris) in bread making: influence on quality indices

Effect of Roselle Seeds Flour Addition on the Quality Characteristics of Pan Bread

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