The objective of this study is preparation of new nutritious products from quail meat compared to other products prepared from chicken meat as control and commercial products which bought from supermarket. The proximate composition, chemical, physical and sensorial properties were evaluated. The different products were prepared as sausage form quail meat (SQ), chicken meat (SC) and commercial (SCo), and, kofta from quail meat (KQ), chicken meat (KC) and commercial (KCo), and, nuggets from quail meat (NQ), chicken meat (NC) and commercial (NCo). The result observed that the chemical composition of products that prepared from quail meat recorded the highest content of protein and ash, on contrary, the lowest content of fat compared with products that prepare from chicken meat as control or commercial. All products that prepared from quail meat recorded high content of K, Ca, Mg, P, Fe, Zn, Se and vitamin A, Kofta was the highest one followed by nuggets then sausage products. While sausage products that prepared from both quail and chicken meat as control recorded the highest content of vitamin E, followed nuggets and kofta, respectively compared with commercial products. The results indicated decreasing cooking loss after preparing of quail meat products followed by both chicken meat products as control and commercial product, increasing water capacity (WHC) of KQ and plasticity of SQ and NQ. All products were accepted from panelists while slightly significant difference among these products (P > 0.05). SC was the highest score in colour, taste, odour, texture and overall acceptability compared with SQ and SCo. Generally products were prepared from quail meat which showed high acceptance in sensory evaluation by panelists.
Our study investigated the effect of utilizing chicken wings and dehydrated shellfish to produce chicken nuggets rich in protein, minerals and vitamins. The proximate composition, nutritional value, physical and sensorial properties were evaluated. The differently prepared chicken nuggets were supplemented with dehydrated shellfish CN 0%, CN 2%, CN 4% and CN 6%. There was a significantly reduction in moisture and an increasing in protein content (P < 0.05) in all Chicken Nuggets (CN) in comparison to the control. Fat content was significantly higher in CN 0% than CN 2%, CN 4% and CN 6%. Ash content was increasing with added dehydrated shellfish, while the reduction in carbohydrates and total calories of the different chicken nuggets were noticed with the significant gradual rise in pH values, TBA values showed no significant difference (P < 0.05) between chicken nuggets. Results showed that using dehydrated shellfish in preparing chicken nuggets caused a marked rise in its content of Ca, Fe, Na, K, Zn, Mg and Mn levels, CN 0% had the lowest concentration of all minerals, and had lower values of vitamins A, E and D but CN 6% had higher values of vitamins A, E and D. Control Nuggets (CN 0%) had the lowest value of yellowness and highest value of lightness but CN 6% had the highest value of yellowness and, the lowest value of lightness. The redness had a slightly reduction. All samples showed slight changes in hardness, cohesiveness, springiness, gumminess and chewiness were noticed. An increase in WHC, pick-up, and cooking loss of chicken nuggets with dehydrated shellfish was noticed. Panelists accepted all prepared chicken nuggets and the chicken nuggets CN 4% had the highest score compared with other chicken nuggets prepared.
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