Maryam Sadat Sotoodeh; Nafiseh Soltanizadeh
Abstract
Introduction: Over the last few decades, development of the industrial life has remarkably increased the demand for consumption of ready-to-eat foods. Deep fat frying is a fast and conventional method for cooking and due to creating crispy surface, soft internal texture, desired color and taste has popularity ...
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Introduction: Over the last few decades, development of the industrial life has remarkably increased the demand for consumption of ready-to-eat foods. Deep fat frying is a fast and conventional method for cooking and due to creating crispy surface, soft internal texture, desired color and taste has popularity among consumers. The main problem related to fried food products is the high oil absorption during deep fat frying that is harmful for human health and has negative effects on shelf life of the product. Therefore, the aim of this study was to investigate the role of breading particles size as well as the influence of addition of soy protein isolate in breading and batter layers on properties of chicken nugget. Material and Methods: First, breading was divided to three particle sizes. Sieves with mesh size 40 (0.42 mm) and 60 (0.25 mm) were used for separation of small breading. Also, sieves with mesh size of 18 (1 mm) and 20 (0.84 mm) as well as 10 (2 mm) and 12 (1.68 mm) were used for preparation of breading with medium and large particle size, respectively. Three percent soy protein isolate was separately added to breading with particle size of small, medium and large and used for production of chicken nugget. Also, 3% soy protein isolate was added to batter mixture and then nuggets coated with three different breading particle size without soy protein isolate. Breading pick-up, moisture content, cooking loss, porosity, oil absorption and penetration, color and textural properties of the chicken nuggets were then evaluated. Results and discussion: Based on the results, the coating of chicken nuggets with small breading size led to the product with the highest moisture content and lowest porosity, oil uptake, oil penetration and shear force. However, chicken nuggets coated with small breading size had the highest breading loss. After incorporation of soy protein isolate to breading, the highest hardness and lowest springiness, cohesiveness and gumminess were related to the nuggets coated with small breading size, however, chewiness was not affected by breading particle size. Breading with small particle size containing soy protein isolate caused the highest L*, a* and b* values in fried chicken nuggets. Addition of soy protein isolate to breading layer significantly caused a decrease in cooking loss, porosity, oil absorption and penetration (p < 0.05). These samples had higher moisture content than the control sample. After addition of soy protein isolate to batter layer, color of chicken nugget did not considerably change (p > 0.05). The effect of soy protein isolate on textural properties is dependent on breading particles size. Generally, the addition of this compound to batter layer decreased hardness, gumminess and chewiness; however, its effect on springiness and cohesiveness is dependent on breading particle size. The presence of soy protein isolate in batter layer increased moisture content which in turn could diminish porosity, cooking loss, oil absorption, and oil penetration (p < 0.05). Overall, the comparison between chicken nugget properties when soy protein isolate was added to breading or batter layer indicated that the presence of the protein in breading layer was more effective in retention of moisture, reducing of cooking loss, porosity, oil absorption and oil penetration. However, these samples had more hardness, gumminess and chewiness compared to those containing soy protein isolate in batter layer. Cohesiveness of chicken nugget containing soy protein isolate in breading was not significantly different with those produced with the compound in batter layer.The production of chicken nugget with small breading size containing 3% soy protein isolate in batter layer was proposed for production of products with better nutritional and physicochemical properties.
Maryam Tamsen; Nafiseh Soltanizadeh; Hajar Shekarchizadeh
Abstract
Introduction: The main part of the further-processed foods especially fish, seafood, poultry, cheese and vegetables market is constituted of battered and breaded products. The annual consumption of battered and breaded products in some countries such as Europe, Japan, and Oceania is approximately 2 billion ...
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Introduction: The main part of the further-processed foods especially fish, seafood, poultry, cheese and vegetables market is constituted of battered and breaded products. The annual consumption of battered and breaded products in some countries such as Europe, Japan, and Oceania is approximately 2 billion pounds. Frying of battered and breaded products is used to improve their quality factors which are mainly crispness, texture, moisture and oil contents, porosity, color and appearance, flavor and nutrition. Crispy outer layer and the moist and juicy interior as pleasant textural characteristics are created in fried foods. Chicken nugget which is made from chicken meat is breaded or battered, then deep-fried or baked and finally is quick frozen. Chicken nugget is composed of four layers including paste, pre-dust, batter and breaded layers. Amaranth is one of the pseudo-cereal grains which belongs to the Amaranthaceae family. The color of amaranth seed varies from milky white to yellow, golden, red, brown, and black. This plant has high nutritional and biological value. Amaranth seed contains starch (61/4%), protein (16/5%), unsaturated fats (5/7%), fiber (20/6%), vitamins (E, B2 and C), minerals (calcium, magnesium, zinc and iron) and phenolic compounds. The purpose of this study was to replace wheat flour with amaranth flour in order to reduce wheat grain dependence, improve the nutritional value of nuggets as well as explore the production possibility of a new product for celiac disease.
Materials and methods: In order to investigate the effect of replacing of wheat flour by amaranth flour in nugget formulation, amaranth flour was used at 0, 50 and 100% levels separately in chicken paste, batter dough, and all layers of nugget (chicken paste, predust, and batter dough). Then, the chemical composition and pH of chicken nugget, chicken paste emulsion stability, cutting force, oil absorption, porosity, cooking loss, degree of oxidation, color and sensory characteristics of produced nuggets were evaluated.
Results and discussion: Results showed that increasing the substitution percent would increase the nutritional value of nuggets. The pH of all produced nuggets containing amaranth flour was higher than the control sample and pH reduction occurred slower in them during 13 days of storage at 4 ° C. Emulsion stability was also affected by the replacement rate and reached the maximum content at full replacement. Samples with 100% incorporation of amaranth flour had the highest emulsion stability due to the presence of polar lipids and globulin in amaranth flour which are surface active agents. However, 50% substitution of wheat flour with amaranth flour in chicken paste significantly decreased emulsion stability as this sample had the lowest emulsion stability. It seems that the interaction of amaranth albumin proteins with wheat gluten proteins reduced soluble proteins, which caused emulsion stability reduction of chicken paste containing both amaranth flour and wheat flour. Also the presence of amaranth flour in nuggets significantly increased oil absorption, porosity, cutting force and cooking loss. Oil absorption of nuggets increased by increasing the amount of amaranth used in nugget production, as the control nuggets had the lowest oil absorption. Albumin proteins which are present in amaranth flour have high oil absorption capacity. Amaranth flour has low viscosity in gelatinization owing to the low amylose content of amaranth starch, which decreases the absorption of batter dough to the chicken paste and as a result cooking loss will increase. Porosity of nuggets increased by increasing the amount of amaranth flour in prepared nuggets. Globulin which constitutes about 20% of amaranth proteins is a good foaming agent. Entrapment of air bubbles by globulin caused porosity increase in nuggets. In addition, the results of moisture content of nuggets showed moisture removal of nuggets containing amaranth flour after frying. Steam pressure of evaporated water caused porous tissue in samples. Hardness, chewiness, gumminess, springiness, and cohesiveness of nuggets containing amaranth flour increased. The cutting force was increased significantly as a result of the amount of amaranth flour of nuggets as was expected. About the oxidation, increasing the substitution rate reduced the amount of malonaldehyde in the early days and reduced the oxidation process in 13 days of storage at 4 ° C. High amounts of phenolic compounds were found in amaranth flour, which could reduce lipid oxidation and spoilage of nugget. Amaranth flour darkened nuggets and by increasing amaranth content, that amount of L (brightness), a (redness) and b (yellowness) declined. Lightness of the outer layer of nuggets decreased by increasing the amaranth amount of nugget, due to the presence of bran and betacyanin pigment in amaranth flour which make it darker than white flour. Wheat flour could be substituted with amaranth flour in nugget production, increasing the nutritional value of product by increasing protein, fiber and minerals levels, with no undesirable effect on total acceptance of consumers.
Hajar Shekarchizadeh; Nafiseh Dehghanpour; Nafiseh Soltanizadeh; Mehdi Kadivar
Abstract
The aim of this study was comparative evaluation of Iran scientific output in the field of food science and technology with five countries including Ireland, Turkey, Egypt, Argentina and Malaysia during 1990-2010 in the Web of Science. The number of indexing scientific outputs in this database show that ...
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The aim of this study was comparative evaluation of Iran scientific output in the field of food science and technology with five countries including Ireland, Turkey, Egypt, Argentina and Malaysia during 1990-2010 in the Web of Science. The number of indexing scientific outputs in this database show that Ireland, Argentina and Turkey ranked sequentially. Articles have the largest share of scientific output in all six countries. Number of citations show that Argentina and Ireland have received the most number of citations. U.S.A. has the most collaboration with all six countries to produce scientific output in food science and technology area .Applied chemistry is the subject area that had the most cooperation with food science and technology in all of the studied countries.
Keywords: Scientific Outputs, Food Science And Technology, Web of Science (WOS), Iran, Ireland, Turkey, Egypt, Argentina, Malaysia
