Food Chemistry
Atena Modiri Dovom; Akram Arianfar; Sara Naji-Tabasi; Vahid Hakimzadeh
Abstract
Introduction: Mayonnaise is one of the products which is widely used in most countries. This product, apart from the taste Desirable as a seasoning It creates in food, an effective role in providing nutrients And it has the necessary energy for humans. dietary mayonnaise, The food product is semi-solid ...
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Introduction: Mayonnaise is one of the products which is widely used in most countries. This product, apart from the taste Desirable as a seasoning It creates in food, an effective role in providing nutrients And it has the necessary energy for humans. dietary mayonnaise, The food product is semi-solid or liquid that from emulsification Fat substitutes and vegetable oils With vinegar and other additives are prepared And has less energy and fat It consists of mayonnaise and salad dressing. Fat has the most calories (9 kcal/g) compared to Protein and carbohydrates (4 kcal/g) provides.Mayonnaise is an oil-in-water emulsion And due to having high amounts of fat It causes cardiovascular diseases It is found in consumers. If used from lower amounts of oil To create texture Suitable for use Thickeners It occurs in mayonnaise Gums are part of Construction formula are Most sauces. Due to the great desire To consume low-fat products And also the wide use of this sauce Production of low-fat mayonnaise is important. The purpose of this research Production of reduced fat mayonnaise Using stabilized nano emulsion It is with casein complex Pickering and Gadomeh Shirazi gum.materials and methods : Mayonnaise with reduced oil Contains 30, 40 and 50 percent Pickering emulsion replacement oil respectively at the level of 42, 32 and 22 percent produced and compared with the control sample. Centrifugal and time stability tests, Textural features, Color characteristics, morphology, Organoleptic properties Sauce samples were evaluated.Results and Discussion : The results showed As the replacement percentage increases Nano emulsion containing Pickering particles and reducing the percentage of fat in mayonnaise Emulsion stability She found her mayonnaise sauce Although at a replacement level of 30% nano emulsion, this decrease in stability was not significant(P<0.05). In the time stability test Low-fat mayonnaise with an increase in the percentage of nano emulsion replacement, After 90 days significant difference between the control sample and mayonnaise No significant difference was observed with oil reduced by 30 and 40%. In the colorimetry test It showed that among the factors L*. a*. b Statistically with the sample There was a significant difference.(P≤0/05). brightness In the witness sample, it was 48/85 In connection with RFM50% The least complex of particles Gadomeh Shirazi gum and casein protein and in relation to RFM30% The most complex of particles Gadomeh Shirazi gum and casein were used. Due to the presence of nanoemulsion Contains complex particles Gadomeh Shirazi gum particles and protein. The brightness has decreased In general, from the RFM50% sampleUp to RFM 30% samples simultaneous with increasing amount of nanoemulsion and reduce the amount of fat The brightness is reduced.Conclusion: By replacing the nano emulsion and reducing the amount of fat in the structure of the sauce The amount of tissue stiffness decreased and pheneritis increased. The sensory test of the samples showed, The witness sample has the most general acceptance But there is a significant difference between the samples There was no reduced-fat mayonnaise with the control. Investigating the characteristics of mayonnaise with Reduced fat using Nanoemulsion stabilized with Complex Pickerings Casein and Shirazi Gadomeh gum The results showed that with the increase Reduce the amount of oil up to 30%, Sensory and texture characteristics in a meaningful way decreased. But oil reduction up to 50% in the presence of Pickering nanoemulsion Preserve textural features and promoted in some cases. All emulsions produced of favorable stability During storage and centrifugation had. Best stability in control and sample RFM-30% was observed. Based on the results, Use of nanoemulsion Maintains quality characteristics Mayonnaise with oil Especially reduced In the sample RFM 30%, it was.Also note to the point that Pickering emulsion structure In the digestive system High stability against digestion, is hope Pickering nanoemulsion structure in the production of food products Various low-fat items be investigated further.
Food Chemistry
Masoumeh Heydari Gharehcheshmeh; Akram Arianfar; Elham Mahdian; Sara Naji-Tabasi
Abstract
[1]Introduction: Sesame oil and sweet almond oil are rich in unsaturated fatty acids and antioxidant components, providing nutritional and functional properties including improvement of the gastrointestinal system, decrease in blood cholesterol level, eventually leading to a decrease in the risk of cardiovascular ...
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[1]Introduction: Sesame oil and sweet almond oil are rich in unsaturated fatty acids and antioxidant components, providing nutritional and functional properties including improvement of the gastrointestinal system, decrease in blood cholesterol level, eventually leading to a decrease in the risk of cardiovascular disease. The present study examined the possibility of the production of emulsion based on sesame and sweet almond oils and the effect of preparation on its stability. Material and methods: Sesame oil and sweet almond oil with tween 80 and span 80 as emulsifiers were used in emulsion production. In order to prepare the nanoemulsions, the water and oil phases were prepared separately by the ultrasonic homogenizer. Ultrasonic waves were applied for homogenization and the effect of Ultrasonic time (5, and 10 min), oil content (2, and 4%), and emulsifier concentration (0.25, 0.5%) on particle size, particle distribution index (PDI), turbidity loss rate, emulsion stability and zeta potential of nanoemulsions were studied. Results and discussion: Ultrasonic time had a reverse effect on particle size, particle distribution index (PDI) and turbidity loss rate and a direct effect on emulsion stability. The particle size and turbidity loss rate of prepared emulsions had a direct relation with oil concentration and a negative effect on emulsion stability. Emulsifier concentration had a positive effect on emulsion stability, a negative effect on emulsion stability, and had no significant effect on turbidity loss rate. According to the results of the effect of type and concentration of oil on particle size distribution, turbidity reduction rate and stability of nanoemulsions in all cases, samples containing sesame oil with a concentration of 2% compared to sweet almond oil, had better results, the presence of this oil led to the formation of nanoemulsions with smaller particles and greater stability. The produced nanoemulsions had a particle size between 200-320 nm, a stability of 91-98/7% and a turbidity reduction rate of 0.0010-0.0027. Also, the highest stability and zeta potential were reported 98.7 % and -33mV respectively, which belonged to sample k4. Therefore, this sample was selected as the optimal sample.The results showed that the particle size, mean particle diameter, particle dispersion and turbidity reduction rate showed a significant difference between the samples, so that the lowest and highest were related to K4 sample (2% sesame oil, homogenization time 10 minutes and Emulsifier concentration ratio 0.5%) and sample B5 (almond oil 4%, homogenization time 5 minutes and emulsifier concentration ratio 0.5%) (p <0.05). The results also showed that the highest level of stability and zeta potential was related to K4 sample. Thus, the best nanoemulsion, K4 sample was introduced
Food Technology
Reza Jaberi; Ahmad Pedram Nia; Sara Naji-Tabasi; Amir Hossein Elhami Rad; Masoud Shafafi
Abstract
Introduction: Fats are widely used in food formulations to improve nutrients and quality of food products. In recent years, consumer awareness of the relationship between diet and health has increased, which results in increasing concerns about fats in products, in terms of high levels of saturated fatty ...
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Introduction: Fats are widely used in food formulations to improve nutrients and quality of food products. In recent years, consumer awareness of the relationship between diet and health has increased, which results in increasing concerns about fats in products, in terms of high levels of saturated fatty acids. Therefore, various attempts have been conducted to find appropriate method to produce solid fats with unsaturated fatty acid content. The production of low-fat cake is of special nutritional importance due to the effects of fats and the incidence of various diseases such as hypercholesterolemia and cardiovascular. In cake making, oil is very important, first of all, it has an effect on keeping the air in the cake dough. It causes porosity and increases the volume of the cake. The conversion of liquid oils to gel-like structures that have the properties of a solid fat (rheological properties, viscoelasticity, dispersibility, and softness) without using large amounts of saturated fats is an important development in the food industry, and structures produced by oleogelation are called oleogels. Therefore, the main purpose of this study was to produce low-calorie muffins by removing fat and replacing it with an oleogel system prepared from a soluble complex of xanthan gum and egg white by indirect foam molding. Materials and Methods: First, aerogels were produced indirectly using egg white protein complex and xanthan gum, and then oleogel was produced by adsorption of oil. In this method, first, water suspensions containing 0.5 wt% of xanthan and 5 wt% of egg white protein were prepared. In the next step, the oleogel was used to produce muffin with reduced oil in three levels of 10, 30 and 50%. In this study, texture characteristics, color, porosity, water activity, moisture, specific volume of muffin samples were investigated. In the control sample, cake dough contained 100% wheat flour, 50% sugar powder, 30% liquid vegetable oil, 2% baking powder, 0.2% vanilla, 36% eggs and 12% invert syrup. To prepare samples containing oleogels, oil was removed and different concentrations of oil reduction at the level of 50, 30 and 10% in the formulation were added to each treatment. Results and Discussion: Muffin with 10% reduced oil had the highest volume and density and had similar texture characteristics to the control sample. By reducing the amount of fat to 50% of the initial amount in muffin, the volume decreased and the firmness of the texture increased significantly (p <0.05). The reduction of the percentage of porosity confirmed that the texture stiffness in higher values of substitution. The sensory evaluation showed that the 10% reduced oil sample had the highest consumer acceptance. According to the results of this study, it can be suggested that preparing muffins with oleogels can reduce the problems caused by fats, while improved sensory and qualitative properties and be produced as a functional food.
Food Technology
Sima Naji-Tabasi; Elham Mahdian; Akram Arianfar; Sara Naji-Tabasi
Abstract
Introduction: Fats have a special place in human nutrition and their main role is supplying energy for the body. But scientific findings approve an association between high fat intake and an increment risk of some diseases, such as atherosclerosis, heart disease, and …. Demand for low-fat foods ...
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Introduction: Fats have a special place in human nutrition and their main role is supplying energy for the body. But scientific findings approve an association between high fat intake and an increment risk of some diseases, such as atherosclerosis, heart disease, and …. Demand for low-fat foods has increased dramatically as people become more aware of fat consumption side effects. However, due to the multiple role of fats in food products, eliminating or decreasing fat lead to poor quality of products. Therefore, it is necessary to use a combination of fat substitutes to maintain the rheological, texture and sensory properties of the low fat food products. The use of emulsion gel structures are new methods for the production of low-fat product that has been studied in this investigation. The Pickering emulsion was used to produce the emulsion. In this method, instead of using surface-active agents, solid particles are used to stabilize the emulsion. The aim of this study was to prepare Pickering Emulsion from Isolated Soybean protein (ISP) and Basil Seed Gum (ISP-BSG) Complex. Finally, emulsion gel systems were applied as fat substitutes in cream. Materials and Methods: Basil seeds were purchased from Mashhad market. Isolated soy protein was purchased from Shandong Yuxin Bio-Tech Co. (China). Sodium azide was purchased from Applichem Inc. (Dramstadt, Germany). Sodium dodecyl sulphate (SDS) was obtained from Merck, Germany. Pickering (solid particles) of soy protein isolate (SPI) and SPI-basil seed gum (ISP-BSG) complex used as emulsifier for stabilization of cold emulsion. ISP-BSG particles were prepared with different mass ratios of ISP: BSG, 1: 0, 1: 1, 2: 1 and 3: 1 and named 1S: 0B, 1S: 1B, 2S: 1B and 3S: 1B, respectively. These solid particles were used as Pickering for emulsion preparation. Cold Emulsion was prepared by adding calcium chloride. The oil leakage, oil leakage after thermal treatments, microscopic structure, textural properties and viscoelastic properties of emulsion gel were studied. Then, the best structures used as a fat substitute in cream (5, 10 and 15%). Results & Discussion: Investigation of emulsion gel properties showed that coating the surface of emulsion droplets with solid nanoparticles formed a rigid shell that acted as a barrier against the deformation and transfer of materials from the interfacial surface. The use of ISP-BSG nanoparticles as picking particles caused more homogeneity and stiffness in emulsion gel structure. The rate of water loss in reduced fat cream was in the range of 1-2% by using the emulsion-gel system, which indicates the effectiveness of these systems in reducing dehydration in cream. The increasing replacement percentages led to increase water loss (p <0.05). However, emulsion type had no significant effect on water loss content (p> 0.05). According to the results, ISP-BSG nanoparticles impart high potential to stabilize emulsion with small oil droplets. Based on the results of the sensory test, it was found that the characteristics of the cream samples depended more on the replacement rate than the type of system used as an alternative. The presence of a fat replacement system maintained the desired quality in low-fat cream samples. Most of the samples scored higher than 3, which indicate the high acceptance of low-fat samples.