NUTRITIONAL QUALITY OF AWARA MADE FROM FERMENTED BANJARA BEANS AND SOYBEAN

Awara, a Nigerian soft cheese analogue produced from soy milk using crude coagulant of citric acid and alum. Soybean and banjara bean were used in this study and were evaluated for their proximate composition, mineral element content, antinutritional factors, in vitro protein digestibility and vitamin content using standard procedures. Results obtained indicated that fermented banjara bean awara had a protein content of 2.15±0.01%, and fermented soybean awara had a protein content of 3.75±0.01%. Fermented banjara beans awara and soybean awara had a fat content of 5.16±0.01% and 17.13±0.01% respectively. There were significant differences in the mineral element content of both non fermented and fermented banjara bean and soybean awara. Level of antinutritional factors showed that both tannin and phytic acid were absent in fermented soybean awara. The in vitro protein digestibility of non-fermented and fermented banjara bean and soybean awara significantly increases with time. Vitamin A contents of fermented banjara and soybean awara increased when compared to non-fermented banjara and soybean awara, while a decrease was observed in non-fermented banjara and soybean awara as compared to fermented banjara bean and soybean awara. It can be concluded from this study that fermented soybean awara which is free of antinutritional factors is a more suitable source of protein and fat as a local cheese in this part of the world.

In vitro Digestibility, Nutritional and Sensory Quality of Extruded Breakfast Cereal from Maize Grits, Partially Defatted Peanut and Beetroot Flour

In-vitro digestibility, nutritional and sensory quality of extruded breakfast cereals from maize grits, partially defatted peanut and beetroot flour blends was investigated. Composite flour blends was prepared from maize, peanut and beetroot flour in the following proportions: A= (100% maize flour as control), B = (90:0:10), C = (90:10:0), D = (80:10:10), E= (70:20:10), F = (60:30:10), and G = (50:40:10). The breakfast cereals were analyzed for proximate, vitamins, in-vitro protein digestibility and sensory properties. There was significant (P<0.05) difference in the proximate composition, the values ranged from; 4.46 to 6.82%, 3.22 - 7.32%, 0.98 to 1.23%, 3.32 – 4.55%, 3.7 – 4.34% and 75.7 – 83.96% for moisture, protein, fat, fibre, ash, and carbohydrate respectively while energy ranged from 343.31 to 357.54Kcal. Vitamins A, B1, B2, B6 and C values ranged from 1.60–1671.84 IU, 0.95 – 1.43, 0.95 – 1.50, 1.09 – 1.75 and 8.77 – 16.22 respectively. There was increase in in-vitro protein digestibility of the samples with addition of defatted peanut and beetroot. Sensory evaluation results showed that sample C had the highest acceptability on 9-point hedonic scale.