Makinde Folasade Maria scite author profile

The impact of processing methods on chemical composition, mineral bioavailability and functional properties of Nigerian-grown cashew flour

Maria

¹

,

Hannah²

2019

Int. J. Food Stud.

2

0

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In this study, the effect of processing methods on the nutritional quality and functional properties of cashew (Anacardium occidentale Linn) kernels were investigated. The kernels were soaked, autoclaved, roasted or germinated at varying time duration; raw kernel served as control. The samples were analysed for chemical, mineral bioavailability and functional properties. Data was subjected to analysis of variance and means were separated by the Duncan multiple range test. The result of chemical composition analyses revealed that raw cashew kernels contained 3.55±0.08% moisture, 21.3±0.05% protein, 45.0±0.15% fat, 2.53±0.02% fibre, 1.59±0.02% ash, 26.1±0.01% carbohydrate, 521.75 Kcal/g energy, 2210.09±0.02mg/kg calcium, 1712.54±0.03mg/kg magnesium, 60.04±0.01 mg/kg iron and 36.74±0.02mg/kg zinc. Tannin, phytate and oxalate concentrations in the raw cashew kernel were 10.14±0.03 mg/kg, 99.30±0.02mg/kg and 11.03±0.03mg/kg respectively. Increased fat, ash and fibre levels were noted for treated samples compared to raw kernels. Mineral concentrations were increased significantly by various treatments compared to raw kernel; however, germination resulted in the highest increase of mineral content. A reduction trend was observed in phytate, oxalate and tannin concentrations in the treated samples with respect to increased processing time. Consequently, various treatments influenced the bioavailability of mineral elements. Treated samples exhibited significant differences in loose and packed bulk densities, water and oil absorption capacities when compared to raw kernels. Germination shows potential to generate not only much needed nutrients in cashew for human development, but also improved bioavailability of nutrients and functionality compared to other processing methods. This approach can used in Community Nutrition and Emergency Feeding Programmes, in developing countries, where the consequence of anti-nutritional factors may worsen the incidence of malnutrition and disease.

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The impact of processing methods on chemical composition, mineral bioavailability and functional properties of Nigerian-grown cashew flour

Maria

¹

,

Hannah²

2019

IJFS

5

0

View full text Add to dashboard Cite

In this study, the effect of processing methods on the nutritional quality and functional properties of cashew (Anacardium occidentale Linn) kernels were investigated. The kernels were soaked, autoclaved, roasted or germinated at varying time duration; raw kernel served as control. The samples were analysed for chemical, mineral bioavailability and functional properties. Data was subjected to analysis of variance and means were separated by the Duncan multiple range test. The result of chemical composition analyses revealed that raw cashew kernels contained 3.55±0.08% moisture, 21.3±0.05% protein, 45.0±0.15% fat, 2.53±0.02% fibre, 1.59±0.02% ash, 26.1±0.01% carbohydrate, 521.75 Kcal/g energy, 2210.09±0.02mg/kg calcium, 1712.54±0.03mg/kg magnesium, 60.04±0.01 mg/kg iron and 36.74±0.02mg/kg zinc. Tannin, phytate and oxalate concentrations in the raw cashew kernel were 10.14±0.03 mg/kg, 99.30±0.02mg/kg and 11.03±0.03mg/kg respectively. Increased fat, ash and fibre levels were noted for treated samples compared to raw kernels. Mineral concentrations were increased significantly by various treatments compared to raw kernel; however, germination resulted in the highest increase of mineral content. A reduction trend was observed in phytate, oxalate and tannin concentrations in the treated samples with respect to increased processing time. Consequently, various treatments influenced the bioavailability of mineral elements. Treated samples exhibited significant differences in loose and packed bulk densities, water and oil absorption capacities when compared to raw kernels. Germination shows potential to generate not only much needed nutrients in cashew for human development, but also improved bioavailability of nutrients and functionality compared to other processing methods. This approach can used in Community Nutrition and Emergency Feeding Programmes, in developing countries, where the consequence of anti-nutritional factors may worsen the incidence of malnutrition and disease.

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Effect of Supplementing Cassava with Okara on Biscuit Quality

Maria¹,

Olaitan²

2020

SJB

1

0

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Okara is a nutritious by-product of soy milk industry; however it is discarded as industrial waste because it is perishable and other uses for it have not been fully identified. The feasibility of utilization of okara in food formulations was investigated. Five blends of composite flour were prepared by combining cassava flour with 10% to 50% of okara flour, respectively. The 100% cassava flour served as control. The functional and pasting properties of the flour blends as well as the chemical and sensory properties of biscuit samples were determined. Statistically significant (p≤0.05) difference in functional properties was observed between cassava flour supplemented with different levels of okara. The pasting properties showed that peak and final viscosities decreased with increase in level of okara flour in the blend. The biscuit samples had protein (4.7-11.9%), ash (1.63-2.17%), crude fibre (17.13-20.38%), fat (17.9- 23.4%), carbohydrate (34.9-53.0%) and energy (349.8-363.5 Kcal/g). Anti-nutritional components (oxalate, phytate and tannin) were significantly affected by inclusion of okara in the formulation. The sensorial characteristics of biscuits prepared from cassava and okara showed significant difference (p≤0.05) compared to the control. Cassava flour could be supplemented with okara flour up to 20% level in the production of biscuits with improved nutritional quality without affecting sensorial acceptability. The results from this study could be adopted by indigenous food industries that want to take the functional and nutritional advantage of okara flour to supplement starchy food ingredients.

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