Proximate assessment and bioassay of breakfast cereals produced from blends of acha (Digitaria exilis), mungbean (Vigna eadiata) and cashew nut (Anarcadium occidentale Linn) flours
Vol. 1 No. 1 (2022), Articles
Vol. 1 No. 1 (2022)

Proximate assessment and bioassay of breakfast cereals produced from blends of acha (Digitaria exilis), mungbean (Vigna eadiata) and cashew nut (Anarcadium occidentale Linn) flours

Articles
https://doi.org/10.58625/jfng-1851
Published 2022-12-23
Inainfe Woripre
University of Nigeria, Nigeria
https://orcid.org/0000-0002-5820-0676
Ifeoma Mbaeyi-Nwaoha
University of Nigeria, Nigeria
https://orcid.org/0000-0002-2641-3394
Deborah Ofoegbu
University of Nigeria, Nigeria
https://orcid.org/0000-0002-3404-869X
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Keywords

Breakfast cereals
undefatted
defatted
feed intake
feed efficiency
feeding experiment

How to Cite

Woripre, I., Mbaeyi-Nwaoha, I., & Ofoegbu, D. (2022). Proximate assessment and bioassay of breakfast cereals produced from blends of acha (Digitaria exilis), mungbean (Vigna eadiata) and cashew nut (Anarcadium occidentale Linn) flours. Toros University Journal of Food, Nutrition and Gastronomy, 1(1), 1–15. https://doi.org/10.58625/jfng-1851
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Abstract

Breakfast cereals were formulated from blends of acha, fermented mungbean and cashew nut (undefatted and defatted) flours. The undefatted and defatted cashew nut  flours were used at different levels of substitution (10, 20, 30, 40 and 50 %) with the best blend of acha and mungbean (80:20) flour which was determined by sensory evaluation. Breakfast cereals were produced by toasting (170 oC) a dry heat treatment process to gelatinize and semi-dextrinize the starch in order to generate dry ready to eat products. The samples were subjected to proximate and bioassay analyses. The breakfast cereal was used for a four week bioassay study using eighty four (84) healthy male albino rats weighing 60 - 90 g. The proximate composition showed: crude protein 10.24-20.10 %, moisture content 6.01-8.07 %, crude fat 3.60-24.51 %, crude fibre 4.02-7.07 %, ash 3.39-4.80 % and carbohydrate 46.4- 68.08 %. Feed intake was measured daily while weight gain was measured weekly. Results after the study showed; feed intake 234.22 – 344.55 g, weight gain 34.14 – 80.25 g, feed efficiency 0.14-0.25 and protein efficiency 0.99-1.89. Feeding experiment showed positive increase in weight when the rats were fed the formulated breakfast products. This implies that the products could support growth. No adverse growth rate was observed. Feed intake was also acceptable and compared well with the stable diet for rats. Feed efficiency of the samples compared well with the control diet.

https://doi.org/10.58625/jfng-1851
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References

Agu, H. O., Ayo, J. A. and Jideani, A. I. O. (2015). Evaluation of the quality of malted acha-soy breakfast cereal flour. African Journal of Food Agriculture, Nutrition and Development, 15(5): 10542-10588.

Akaerue, B. I. and Onwuka, G. I. (2010). Evaluation of the yield, protein content and functional properties of mungbean [Vigna radiata (L.) Wilczek] protein isolates as affected by processing. Pakistan Journal of Nutrition, 9: 728-735.

AOAC (2010). Official Methods of Analysis, Association of Official Analytical Chemists, 18th Edition Association, Maryland USA.

Aremu, M. O, Olaofe, O. and Akintayo, E. T. (2005). Nutritional qualities assessment of the presence of hull in some Nigerian underutilized legume seeds. Bulletin of Pure and Applied Sciences, 24:47-52.

Ayo, J. A. and Johnson, R. G. (2018). Chemical, phytochemical composition, physical and sensory qualities of acha-guava flour blends and biscuits. Nutrition and Food Science International Journal, 8(1): 001-008.

Ayo, J. A. and Nkama, I. (2004). Effect of acha (Digitaria exilis) grain flour on the physicochemical and sensory properties of bread. International Journal of Food Properties, 3(3): 561 - 569

Badje, D. S, Soro, D., Yeo, M. A and Koffi, K. E. (2018). Physico-chemical, functional and sensory properties of composite bread prepared from wheat and defatted cashew (Anacardium occidentale L.) krnel flour. International Journal of Environmental and Agriculture Research, 4(4):88-98.

Emelike, N. J. T., Barber, L. I. and Ebere, C. O. (2015). Proximate, mineral and functional properties of defatted and Undefatted cashew (Anacardium occidentale Linn.) kernel flour. European Journal of Food Science and Technology 3(4):11 - 19.

Enwere, N. J. (1998). Foods of Plant Origin. Afro Orbis Publication Ltd, Nsukka, Nigeria, pp. 24 - 152.

FAO, (2011). Dietary protein quality evaluation in human nutrition. Report of an FAO expert consultation, Auckland, New Zealand. FAO Food and Nutrition

Ihekoronye, A. I. and Ngoddy, P. O. (1985). Integrated Food Science and Technology for the Tropics. Macmillian Publishers Limited, London, United Kingdom. pp. 236 - 253.

Ikujenlola, A. V., Abiose, S. H. and Abioderin, F. I. (2015). Nutritional quality assessment of complementary foods produced from fermented and malted quality protein maize fortified with soybean flour. Polish Journal of Food and Nutrition Sciences, 65(1):49 - 56.

Jaenicke, H. and Pasieczni, N. (2009). Underutilized crops and invasive species-Understanding the links. International Society for Horticultural Science, 806: 587-594.

Janvekar. S. (2010). Development and evaluation of popped sorghum breakfast cereal for nutrient adequacy. An M.Sc Dissertation Department of Food Science and Nutrition, College of Rural Home Science, Dharwad University of Agricultural Sciences, Dharwad -580 005.

Jideani, I. A. (1997). Use of microbial polysaccharide and some tropical cereal flour. In: Non-wheat Bread, Proceeding of an Internal Conference on Biotechnology for Development in Africa: Priority for the early twenty century, Enugu, Nigeria. pp. 240 – 246

Jideani, I. A., Onwusu, R. C. and Muller, H. G. (1994). Protein of acha (Digitaria exilis stapf), solubility, fraction, gel filteration and electrophoresis of protein fraction. Food Chemistry 51(1): 51 - 59.

Kamau, E. H., Serrem, A. C. and Wamunga, F. W. (2017). Rat bioassay for evaluation of protein quality of soy-fortified complementary foods. Journal of Food Research, 6(6): 35 – 44.

Kanu, J. K., Sandy, E. H. and Kandeh, B. A. J. (2009). Production and evaluation of breakfast cereal-based porridge mixed with sesame and pigeon peas for adults. Pakistan Journal of Nutrition, 8(9):1335 - 1343.

Mbaeyi, I. E. (2005). Production and evaluation of breakfast cereal using pigeon-pea (Cajanus cajan) and sorghum (Sorghum bicolor L.) An M.Sc. Dissertation Department of Food Science and Technology, University of Nigeria, Nsukka.

Mbaeyi-Nwaoha, I. E and Odo, J. E. (2018). Production and evaluation of breakfast cereals from blends of acha, mung bean and orange fleshed sweet potato. African Journal of Food Science and Technology, 9(4): 65 - 73

Nassar, N. M. A. and Sousa, M. V. (2007). Amino acid profile in cassava and its interspecific hybrid. Genetic and Molecular Research,6(2): 292 - 297

National Research Council (1996). Lost Crops of Africa. Vol. 1: Grains. National Academic Press, Washington, DC, USA. pp. 60 – 75.

National Research Council (NRC) (2005). Recommended Dietary Allowances. 10 th Edition. National Academic Press Washington DC, pp 24.

National Research Council (NRC) manual (2011). Guide for the care and use of laboratory animals. Eighth Edition, Washington D. C. The national academies Press. pp. 3 – 11

Oburuoga, A. C. and Anyika, J. U. (2012). Nutrient and antinutrient composition of mungbean (Vigna radiata), acha (Digitaria exilis) and crayfish (Astacus fluviatilis) flour. Pakistan Journal of Nutrition, 11(9): 841 - 844

Ogungbenle, H. N. (2014). Chemical, functional properties and amino acid composition of raw and defatted cashew kernel (Anacardium occidentale).American Chemical Science Journal, 4(3): 348 - 356

Ojinnaka, M. C. and Agubolum, F.U. (2013). Nutritional and sensory properties of cashew nut-wheat based cookies. American Journal of Food and Nutrition, 3(3): 127 - 134.

Okoye, Z. S. C. (1992). Biochemical aspects of nutrition. Prentice Hall of India, New Delhi. Pp. 147 - 195

Omosuli, S. V., Ibrahim, T. A., Oloye, D., Agbaje, R. and Jude-Ojei, B. (2009). Proximate and mineral composition of roasted and defatted cashew nut flour. Pakistan Journal of Nutrition,8(10):1649 – 1651.

Omowaye-Taiwo, O. A., Fagbemi, T. N., Ogunbusola, E. M and Badejo, A. A. (2014). Effect of germination and fermentation on the proximate composition and functional properties of full-fat and defatted cucumeropsis mannii seed flours. Journal of Food Science and Technology, 52(8):5257–5263

Onuh, F. A., Mbaeyi-Nwaoha, I. E. and Ani, J. C. (2019). Evaluation of the hypoglycemic potentials and glycemic index of ready-to-eat breakfast products using animal bioassay. American Journal of Food Science and Technology, 7(5): 161 - 168

Setyaningsih, D. N., Fathonah, S., Putri, R. D. A, Auda, A. K. and Solekah, N. (2019). The influence of baking duration on the sensory quality and the nutrient content of mung bean biscuits. Food Research, 3(6): 777 – 782.

Sharma, J. L. and Caralli, S. (2004). A Dictionary of Food and Nutrition. CBS Publishers, New Delhi. pp. 1 – 12.

Usman, G. O. (2012). Production and evaluation of breakfast cereals from blends of African yam bean (Sphenostylis stenocarpa), maize (Zea mays) and defatted coconut (Cocos nucifera). An M.Sc. Dissertation, Department of Food Science and Technology, University of Nigeria, Nsukka.

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