Food Technology
Vahid Hakimzadeh; Fatemeh Ghorbanpour; Hassan Rashidi
Abstract
Introduction: One of the relatively new dairy products is cheese sauce, which can increase the consumption of cheese per capita and replace unhealthy sauces. Functionality process by adding useful compounds to food while maintaining its appearance improves properties of foods. Nowadays, due to the importance ...
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Introduction: One of the relatively new dairy products is cheese sauce, which can increase the consumption of cheese per capita and replace unhealthy sauces. Functionality process by adding useful compounds to food while maintaining its appearance improves properties of foods. Nowadays, due to the importance of compounds such as essential fatty acids, antioxidants and fiber, the demand for consuming products containing these compounds in the diet is very high. Date seed extract contains fiber, antioxidants, lignans and essential fatty acids. On the other hand, whey also has many nutritional properties. The purpose of this research is to prepare cheese sauce using such compounds so that while preparing a useful product, it is possible to prevent the wastage of valuable by-products. Material and Methods: In this research, the effect of Date kernel extract in amounts of zero (control), 5 and 15% to cheese sauce formula in the presence (15%) and absence of whey on the physicochemical characteristics of cheese sauce powder samples was investigated. The organoleptic properties of samples, also were studied in 5-hedonic form. All experiments were done based on completely randomized block design and in three replications. Duncan's test was used to compare the average dataResults and Discussion: The results showed that the addition of whey and date kernel extract to the cheese sauce significantly increased the characteristics such as dry matter percentage, powder solubility, phenolic compounds, antioxidant property and viscosity compared to the control sample. But on the other hand, the increase of Date kernel extract and whey in amounts of 15% decreased the amount of protein in cheese sauce. The results of the sensory properties of the samples also showed that the highest acceptability was related to the sample with 5% of seed date extract in the presence of whey.
Samaneh Joodi Attar; Vahid Hakimzadeh; Hassan Rashidi
Abstract
Introduction: Cheese is a dairy product that commonly used and has lots of variety in the world. Among the various types of cheese, UF cheese is attracting more consumers in Iran. The need to change the flavor and make a diversity in this product has been considered for long time. Since high fat foods ...
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Introduction: Cheese is a dairy product that commonly used and has lots of variety in the world. Among the various types of cheese, UF cheese is attracting more consumers in Iran. The need to change the flavor and make a diversity in this product has been considered for long time. Since high fat foods such as cheese are the main cause of some disorders like cordial disease, cancer, obesity and diabetes, formulation of dairy products with modified fat or fat replacer was considered by many researchers and suppliers. Vegetable oils can be used as a substitute for milk fat in cheese. Flaxseed oil consists high level of alfa-linolenic acids (Omega-3) and suitable amount of proteins could noticed as a fat replacer. In this study, we investigated the effect of milk fat replacement with flaxseed oil on the production of functional Feta cheese. The rheological, physicochemical, and organoleptic characteristics of such cheese and its optimal formulation were also determined
Materials and methods: The effect of Flaxseed oil (FSO) at a range of 0-100 % and whey protein concentrate (WPC) (0-15%) was investigated on pH, synersis, Dry Matter, hardness, springiness as physicochemical and mechanical properties and mouth feeling, odor, taste overall acceptance as organoleptic properties of UF cheese production by RSM. For the preparation of cheese, a free fat retentate powder was used. To adjust fat to 20%, cream was used with 70% flaxseed oil and homogenized by ultraturrax method. All of the physicochemical, mechanical and organoleptic tests accomplished according to theIranian national Standards/
Results and discussions: Results showed that by increasing the amount of FSO in the formulation of cheese, pH, stiffness and synersis increased. Also, with increasing flaxseed oil, the elasticity was initially decreased and increased in greater quantities afterward. However, by increasing the WPC, the elasticity decreased. The increase of flaxseed oil had a reversible effect on the taste, smell, color and overall cheese acceptance score compared with the control samples due to the presence of some impurities in oil. Increasing the amount of WPC and FSO also caused a decrease in pH and fat during ripening of cheese. Although increasing the level of WPC improved the odor of cheese, but did not have positive effect on appearance, color and general acceptance. The result of optimization of UF cheese production with the following indices: pH 4.82%, synersis 1.35%, fat 20.3%, dry matter 32.45%, hardness 631.46 nm, elasticity 0.94 mm, color 3.4, Odor 3.1, flavor 2.8, texture 3.1 and final acceptance 3.11, showed that the best formulation needs 96.01% of flaxseed oil and 9.73% whey protein concentrate. Finally, the predicted optimal formula by software was also determined as follow: pH 4.78, synersis 1.27%, fat content 19.8%, dry matter 31.4%, the firmness index 618.02, the elasticity 1.03 mm, and the sensory scores included color 3.4 , odor 3.15, Taste 2.97, Texture 3.64 and Final acceptance 3.21.
Aliakbar Gholamhosseinpour; Mostafa Mazaheri Tehrani; Seyed Mohammad Ali Razavi; Hassan Rashidi
Abstract
In this research, a mixture of MPC, WPC, SMP, Soy milk, Margarine, Butter and water was used for production of UF-Feta cheese analogue.Variables were MPC (8%, 9%, 10%), WPC (0%, 1.5%, 3%), soy milk (5%, 10%, 15%) and margarine (0%, 5%, 10%). Chemical (total solids, protein, acidity) and sensory (color ...
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In this research, a mixture of MPC, WPC, SMP, Soy milk, Margarine, Butter and water was used for production of UF-Feta cheese analogue.Variables were MPC (8%, 9%, 10%), WPC (0%, 1.5%, 3%), soy milk (5%, 10%, 15%) and margarine (0%, 5%, 10%). Chemical (total solids, protein, acidity) and sensory (color and appearance, aroma, texture, flavor, total acceptance) properties of Samples were analyzed 3 days post- manufacture.The central composite design (CCD) was employedand the results were analyzedusing response surface methodology (RSM). Coefficients of determination, R2, of fitted regression models for mentioned variables ranged between 84.94-99.99 and the lack-of-fit was not significant for all response at 95%. Hence, the models for all the response variables were highly adequate.The results showed that the optimum processing conditions for producing cheese with standard total solids and protein content and highest overall values for the sensory properties were: 9.13% MPC, 3% WPC, 15% soy milk and 7.65% margarine.
Hassan Rashidi; Mostafa Mazaheri Tehrani; Seyed Mohammad Ali Razavi; Mohsen Ghods rohani
Abstract
There is overwhelming scientific evidence that saturation fat consumption increases the risk of both coronary and cancer disease. As a result, fat reduction in UF-Feta cheese (≈ 45% fat in dry matter content) is favorable but unfortunately has some negative effects on the quality of cheese. In this ...
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There is overwhelming scientific evidence that saturation fat consumption increases the risk of both coronary and cancer disease. As a result, fat reduction in UF-Feta cheese (≈ 45% fat in dry matter content) is favorable but unfortunately has some negative effects on the quality of cheese. In this research, the effect of different levels of retentate fat (0, 2, 6, 10, 14 and 18%) and CaCl2 (0 and 0.02%) on sensory (texture, taste, odor, total acceptance) and mechanical texture (texture profile analysis and penetration parameters) characteristics of UF-Feta cheese made from retentate powder was studied. The completely randomized design with two factors was used for production and data analyzing. The results of sensory test showed that cheese sample containing 10% fat retentate and 0.02% CaCl2 had highest texture score with significant difference. Therefore, the panelists were preferred taste and odor of full-fat samples and the maximum total acceptance was belonged to cheese sample made from 14% fat retentate. In texture profile analysis, fat reduction was resulted in significant decrease in gumminess, chewiness, adhesiveness, springiness and compression work but cohesiveness of samples didn’t have any significant differences. In penetration test, hardness, apparent modulus of elasticity, adhesiveness force, adhesiveness and penetration force were decreased with fat reduction. As a result, addition of 0.02% CaCl2 to retentate was increased generally the texture profile analysis and penetration parameters.
Keywords: CaCl2, Cheese, Fat reduction, Feta, Texture