Ayman El-Anany, Rehab F.M. Ali, Mona S. Almujaydil, Reham M. ALgheshairy, Raghad Alhomaid and Hend F. Alharbi
This study aims to evaluate the nutrient content and acceptable qualities of plant-based burger patties (PBBP) formulated with chickpea flour, defatted sesame cake (DSC) flour…
Abstract
Purpose
This study aims to evaluate the nutrient content and acceptable qualities of plant-based burger patties (PBBP) formulated with chickpea flour, defatted sesame cake (DSC) flour, coffee silver skin and pomegranate juice as colorant.
Design/methodology/approach
The chemical composition, energy value, cholesterol content, amino acid composition, cooking loss, pH, color characteristics and sensory attributes of PBBP were analyzed using official procedures and compared to beef burger.
Findings
PBBP had a protein value of 16.0 g/100g, which is nearly close to the protein content of the beef burger (18.1 g/100g). The fat content of the PBBP was approximately three times lower than that of the beef burger. The fiber content in PBBP was approximately 23 times as high as that in beef burgers samples (p = 0.05). The raw PBBP samples supplies 178 Kcal/100g, whereas beef burger possessed 259 Kcal/100g. Neither the raw nor the cooked PBBP samples contained any cholesterol. Both the beef and PBBP displayed acceptability scores higher than 7.0, which suggests that PBBP was well accepted.
Originality/value
It is concluded that the PBBP sample exhibited a protein value of 16.0 g/100g, which is comparable to the protein level of beef burgers (18.1 g/100g). The fat level of the PBBP samples was significantly lower than that of the beef burger samples. Uncooked PBBP samples contained significantly higher fiber content compared to beef burger samples. No cholesterol was found in raw or cooked PBBP samples. Overall acceptance scores for both beef and PBBP samples exceeded 7.0, suggesting that the proposed product (PBBP) was received favorably.
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Asiyah S.D.A. Alshammai, Rehab F.M. Ali and Raghad M. Alhomaid
This study aims to find out how pomposia fruit powder (Syzygium cumini L.) mixed with roasted coffee (RCO) affected antioxidants, phytochemicals, lipid peroxidation inhibition and…
Abstract
Purpose
This study aims to find out how pomposia fruit powder (Syzygium cumini L.) mixed with roasted coffee (RCO) affected antioxidants, phytochemicals, lipid peroxidation inhibition and sensory attributes.
Design/methodology/approach
Pomposia fruits (Syzygium cumini L.) powder (PFP) was integrated with RCO at levels of 0.0%, 5.0%, 10.0%, 15.0% and 20.0%. RCO, PFP and binary mixtures containing RCO: PFP were evaluated for their total phenolics (TP), total flavonoids (TF), anthocyanin content (AC), antioxidant activity and phenolic compounds fractionation. The oxidative indices of coffee oil samples were measured throughout different storage intervals. Additionally, sensory characteristics of RCO enriched with different PFP doses were evaluated.
Findings
PFP samples exhibited the greatest TP content (1910 mg/100 g), whereas RCO samples had the lowest concentration (1090 mg/100 g). As more PFP was added, the corresponding coffee blends’ concentrations of TP, TF and AC were improved significantly. PFP possesses a radical-scavenging activity that is about 1.20 times more than RCO’s. DPPH (2,2-diphenyl-1-picrylhydrazyl) radical-scavenging activity jumped significantly from 74.13% in control (untreated) samples to 77.64%, 78.39% and 80.15% for samples enriched with 10.0%, 15.0% and 20% PFP, respectively. Significant increases in gallic acid, hesperidine, benzoic acid, chlorogenic acid, hispertin, catechol, quercetin, pyrogallol and rutin were detected when RCO was mixed with different quantities of PFP. At the end of storage trial, the coffee oil treated with 20% PFP had AV, PV and TBA values that were about 1.70, 1.95 and 1.66 times lower, respectively, than those of the control sample that had not had PFP addition. The RCO with 5.0% PFP achieved the greatest over acceptability grades.
Originality/value
To the best of the authors’ knowledge, this study was the first study to evaluate the effect of incorporating various level of pomposia fruit powder into RCO. The findings shows that adding different concentrations of pomposia fruit powder into RCO can indeed enhance the radical-scavenging activity of the coffee and potentially extend its shelf life.
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Rehab F.M. Ali, Sami A. Althwab, Hani A. Alfheeaid, Ayman Mohammed El-Anany, Raghad M. Alhomaid and Hend F. Alharbi
Soaked–dehulled moth bean seed (SDMBS) powder was incorporated into wheat flour and the paper aims to investigate its effects on the nutritional and quality properties of…
Abstract
Purpose
Soaked–dehulled moth bean seed (SDMBS) powder was incorporated into wheat flour and the paper aims to investigate its effects on the nutritional and quality properties of composite bread.
Design/methodology/approach
Different ratios of SDMBS powder (0%–12.5%) were mixed into wheat flour to prepare composite bread. Proximate composition, mineral content and functional properties of SDMBS powder and wheat flour were studied. The composite bread samples were assayed for proximate composition, mineral nutrients, amino acid composition, physical characteristics as well as sensorial properties.
Findings
Protein and ash contents of SDMBS powder were found to be 2.15 and 5.69 fold higher than wheat flour. Water absorption capacity (WAC), oil absorption capacity (OAC), (FC) and emulsion activity (EA) values of SDMBS powder were also 1.63, 1.78, 4.43 and 1.58 times higher than wheat flour, respectively. The inclusion of different levels of SDMBS powder into wheat flour significantly (p = 0.05) increased the functional properties of composite flours. Bread samples fortified with SDMBS powder exhibited higher values of essential amino acids than the recommendations of World Health Organization/Food and Agriculture Organization/United Nations University (2007). The bread samples containing 10% and 12.5% of SDMBS powder provided 39.23% and 41.15% of the recommended lysine level, respectively. The addition of a higher proportion of SDMBS powder into wheat flour gradually increased the protein and ash contents of the bread samples. Control sample without SDMBS powder (0%) and samples fortified containing 2.5% and 5% of SDMBS powder received the highest scores of overall acceptance, whereas the bread sample with the highest SDMBS powder (12.5%) content received the lowest scores.
Research limitations/implications
The main findings of the current investigation indicated that the addition of 2.5–5% of SDMBS powder into wheat flour enhanced the nutritional and quality characteristics of wheat bread.
Originality/value
SDMBS powder could be incorporated into refined wheat bread to achieve functional bread with significantly higher protein content.
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Akram M. Mohammed, Ayman Mohammed El-Anany, Sami A. Althwab, Raghad M. Alhomaid, Hend F. Alharbi, Reham M. ALgheshairy and Rehab F.M. Ali
The purpose of this current investigation is to evaluate the effect of adding different levels of cheeseweed Malva parviflora L. mallow leaves powder (MPLP) on the nutritional and…
Abstract
Purpose
The purpose of this current investigation is to evaluate the effect of adding different levels of cheeseweed Malva parviflora L. mallow leaves powder (MPLP) on the nutritional and quality characteristics of bread.
Design/methodology/approach
Wheat flour was partially replaced with MPLP at 0%, 1%, 2%, 3%, 4% and 5% levels to obtain the wheat– MPLP composite flour. Chemical composition, phenolics, flavonoids and antioxidant activity by 2,2-diphenyl-1-picrylhydrazyl of wheat flour and MPLP were determined. Physicochemical and sensory characteristics of bread enriched with various levels of MPLP were evaluated.
Findings
MPLP contains 23.9% of protein, 10.1% of crude fiber and 9.8% of ash, respectively. MPLP had a significantly higher concentration of micronutrients than wheat flour. The content of total phenolics, flavonoids as well as free radical scavenging activity of MPLP were 17.6, 38.2 and 6.0 fold, respectively, higher compared to wheat flour. Protein content in bread samples increased with the addition of the MPLP in a range of 1.2%–6.6%. The increasing replacement of MPLP in the composite flours resulted in progressively higher dietary fiber and ash contents for fortified bread samples. The higher level of MPLP reduced the specific volume of fortified breads. The highest scores for the sensory attributes were noted for bread samples fortified with 2% and 3% of MPLP, whereas the lowest scores for bread samples fortified with 4% and 5% MPLP.
Research limitations/implications
Supplementation of wheat bread with different levels of MPLP resulted in significant increases in macro and microelements of fortified breads.
Originality/value
Supplementation of wheat bread with different levels of cheeseweed Mallow (Malva parviflora L.) leaves powder resulted in significant increases in macro and microelements of fortified breads.
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Sami A. Althwab, Raghad M. Alhomaid, Rehab F. M. Ali, Ayman Mohammed El-Anany and Hassan M. Mousa
The effects of incorporation of Locusta migratoria (LM) powder at different levels (0, 1, 2, 3, 4 and 5%) on nutritional, qualitative and sensory properties of baked breads were…
Abstract
Purpose
The effects of incorporation of Locusta migratoria (LM) powder at different levels (0, 1, 2, 3, 4 and 5%) on nutritional, qualitative and sensory properties of baked breads were investigated.
Design/methodology/approach
Chemical composition, mineral elements and functional properties of wheat flour, LM powder and their binary mixture systems were determined. The breads were assayed for proximate composition, minerals, amino acids profile, physical characteristics and sensorial properties.
Findings
LM powder have relatively high levels of protein (51.97% db), fat (23.15% db) and fibers (13.76% db). LM powder presented significantly (p ≤ 0.05) greater water absorption capacity (WAC), oil absorption capacity(OAC), emulsion activity (EA) and foam capacity (FC) as compared to wheat flour. Blending wheat flour with various levels of LM powder significantly (p ≤ 0.05) improved the functional properties of binary mixture systems. Protein, fat, fiber and ash contents of bread samples significantly increased with the addition of LM powder. No significant differences (p ≤ 0.05) were recorded in specific volume between control breads and those breads containing LM powder up to 2%. Breads fortified with LM powder contained higher values of essential amino acids than the limits of FAO/WHO pattern, with exception of lysine. Sensory evaluation results showed that bread samples with the addition of LM powder at levels 1–4% had high overall acceptability.
Research limitations/implications
Limitations of our study are the lack of approved and professional programs about management, collection, harvesting, processing, marketing and consumption of edible insects; therefore, these results should be generalized implications for industry. This present study, therefore, provides useful data to support public health nutrition aimed at improving the nutritional health of populations through the promotion of bakery products enriched with LM powder.
Practical implications
The main findings of this study indicated that the addition of 1–4% of LM powder into wheat flour enhanced sensory and nutritional properties of produced breads.
Originality/value
It is concluded that the addition of LM powder improves the nutritional and sensorial properties of the produced bread when the wheat flour is substituted with 1–4% of LM powder.