جستجوی مقالات مرتبط با کلیدواژه "سس مایونز کم چرب" در نشریات گروه "صنایع غذایی"

Mayonnaise is one types of sauces that has always been loved and preferred by consumers because of its unique texture and taste. Sauce is a semi-solid or liquid food ingredients that consists of emulsifying edible vegetable oils (at least 66%) in a liquid phase including vinegar, water, lemon juice, and egg yolk (Bortnowska and Makiewiewicz, 2006). According to the National Standard of Iran (No. 2454), if the amount of fat in mayonnaise is reduced by at least 25% (from 66% of fat), it is considered reduced fat mayonnaise, and if it is reduced by 50% in fat, mayonnaise is considered low-fat. (National Standard of Iran 2454, 1394). Fibers are edible parts of plants or similar carbohydrates that cannot be absorbed in the gut and only irritate the gut. Dietary fiber contains polysaccharides, oligosaccharides, lignin and related plant materials. Dietary fiber intake can reduce the risk of cardiovascular disease, high blood pressure, diabetes, obesity, cancer and some gastrointestinal disorders. They can alter tissue properties, eliminate hydration, stabilize high-fat foods and emulsions, and improve shelf life (Zhang et al., 2017). Barley (Avena sativa L.) is an important crop with about 21 million tons annually production worldwide. The seed has been used to raise public awareness about the health benefits of beta-glucan, which helps lower blood cholesterol and glucose levels. Protein is the second most abundant element (12 to 20%) in barley after starch, which contains organic amino acids, due to its high lysine content because globulins make up 70 to 80% of total barley protein. Alcohol-soluble prolamins, on the other hand, are the main storage proteins in other cereals (Nito et al., 2015).

 In this study, nitrate, ethanol, methanol, chloroform, ethylene glycol and acetic acid were prepared from Merck Company (Germany) and sunflower oil from Rana Company, vinegar from Somayeh Company, salt from Aali Company, sugar from Pardis Company, mustard from Bijan Company and Barley Malt Pulp was prepared from Behnoosh Company. Chemical extraction method was used to extract fiber. (Salehifar and Fadai Noghani, 2013). To prepare the mayonnaise samples, the powder ingredients including salt, mustard and sugar, vinegar and water were first mixed well and uniformly with a mixer (IKA WERK, Germany). Then, according to the formulation, the fiber extracted from barley malt pulp was gradually added to the above mixture, which was stirring, and the eggs were added to the mixture and mixed thoroughly to obtain a uniform composition. At this stage, the oil was added dropwise with continuous pouring. Finally, the samples of mayonnaise prepared were kept at refrigerator for further analysis. In all samples, the amount of sugar (11.5 g), white vinegar (23.1 g), eggs (39.45 g), salt (4.50 g), water (24.6 g) was constant (Bostani et al., 2011). In this study, in order to reduce the amount of oil, it was replaced with fiber extracted from barley malt pulp at five levels of 0, 5, 10, 15 and 20% (w / w).

 The effect of replacing different percentages of fibers extracted from barley malt pulp with fat at levels (5, 10, 15 and 20%) on physicochemical properties (fat, fiber, ash, viscosity and colorimetry (L*) a*, b*) and sensory characteristics (taste, smell, color, texture and general acceptance) were determined using analysis of variance at 5% probability level. Various properties of low-fat mayonnaise showed that as the percentage of barley malt fiber increased, the amount of fat, radiance and yellowness in low-fat mayonnaise treatments (P <0.05) decreased, and the addition of fiber increases the viscosity, fiber, ash and redness of mayonnaise, treatments (P> 0.05) as well as protein content. In the treatments, which was statistically significant (P> 0.05), the results of sensory evaluation of mayonnaise samples showed that the addition of fiber extracted from barley malt pulp resulted in a significant reduction in taste, texture, color and the general acceptance of mayonnaise samples (P <0.05), while the decrease in odor score was not statistically significant (P> 0.05), so that the treatment containing 20% barley malt fiber had the lowest sensory score (taste). Smell, texture, color, acceptance k Li) and treatments containing 5 and 10% barley malt fiber received the highest sensory scores (taste, odor, texture, color, general acceptance) from the panelists.

 According to the results, treatment 3 (containing 10% barley malt fiber) was introduced as the best treatment in the present study.

With the increasing the global population and the scarcity of food resources, using agricultural waste has become a recent challenge for food scientists. 

In this study, to optimize the amount of crop residues and the preparation and formulation of dietary and beneficial sauce, two crop residues, pistachio peel, and melon seed, were used as flour. In this study, treatments of mayonnaise sauce were formulated using pistachio peel powder with 0, 0.1, 0.5, 0.75, and melon seed flour with 6, 12, 18, 24, 30, and 36%. Mayonnaise treatments were evaluated at time intervals of the production day, 30th day, 60th day, 90th day for pH, moisture content, ash (%), fat (%), carbohydrate (%), protein (%), colorimetric indices (Lightness, redness, yellowness), viscosity, total microbial population, stability test, and particle size. For the sensory evaluation, the 5-point hedonic test was performed by ten trained panelists scoring these components (color, taste, texture, fluctuation, consistency, general acceptance). Statistical analysis was performed using Minitab 17 software at the statistical level of 0.05. 

The results showed that moisture content, carbohydrate, ash, protein, pH, viscosity, and particle size were increased by increasing pistachio peel powder and melon seed flour. Total microbial population and the stability of mayonnaise treatments were significantly decreased (p≤0.05). Also, by increasing storage time, moisture content and the stability of mayonnaise and particle size were increased. Rheological indices such as cohesion decreased, and firmness and adhesion indices were increased (p≤0.05). All sensory scores of mayonnaise treatments decreased during storage time, and finally, treatment coded T1(0.1% replacement of pistachio green peel powder and 6% melon seed flour) was selected as optimal, and T6 with 0.75% replacement of pistachio green peel powder and 36% melon seed flour) as worst sample. The use of pistachio peel powder and melon seed flour significantly reduced the microbial population of mayonnaise treatments. Higher values than the optimum treatment cannot be used due to decrease in the stability and increase in the microbial population, as well as reduction of sensory scores.

This study was carried out to determine the effect of using konjac gum as a fat substitute on the physico-chemical, rheological and sensory properties of low-fat mayonnaise. For this purpose, different concentrations (0.5, 1 and 1.5%) of konjac gum were added to the mayonnaise, and the amount of oil in the formulation was reduced by half. In this study, ash, protein, fat, moisture, pH, acidity, texture, apparent viscosity, emulsion stability, color evaluation and sensory evaluation were investigated and compared with low fat (reduced oil and without gum) and high fat (commercial mayonnaise) cream as control samples The results showed that the replacement of konjac gum significantly caused a decrease in the syneresis amount compared to the low-fat control sample. Texture firmness and apparent viscosity significantly increased with increasing gum, while the sample containing 1% konjac was similar to high fat control sample. Also, the results of sensory evaluation showed that panelists did not differentiate between samples containing konjac and high fat control sample. Therefore, it can be concluded that konjac gum at 1% can be used as a fat substitute for the preparation of low-fat mayonnaise due to its favorable physicochemical properties and acceptable texture and flavor.

Increasing society's desire to consume healthy and low-calorie foods has led to the production of low-fat and healthy foods. In this study, the effect of oil replacement with tofu cheese and Persian gum on physicochemical, textural, rheological and sensory properties of Mayonnaise sauce as well as its particle size, were investigated. Tofu was replaced with fat at three concentration levels of 20, 35 and 50% and Persian gum was added to the sauce at three concentrations of 2.5, 3, and 3.5%. The control sample contained 60% fat and guzanthan gum. With increasing tofu, pH and acidity increased and with increasing Persian gum acidity decreased. With increasing tofu, histological test (hardness, adhesiveness, adhesive force, work done to hardness, apparent modulus) decreased and with increasing Persian gum, their increased. With increasing tofu, decreased particle size. With increasing gum until 3%, average of particle size decreased and with more increase of gum, average of particle size increased.  The rheological behavior of all samples at a shear rate of 0.01 to 1000 (on second) showed that the viscosity decreased with increasing tofu decreased and with increasing gum, increased. In all samples, with increasing shear rate, the viscosity was decreased, and the behavior of the samples was pyseudoplastic and the parameters followed the power law model. Sample with 20% tofu cheese and 3.5% Persian gum as top samples, whose properties are closer to fatty mayonnaise and can be called Mayonnaise with reduced fat.

Physical and thermal stability tests of the emulsion were performed with a centrifuge machine. PH test was performed using pH meter and acidity test in terms of acetic acid percentages. The fat percentage was performed with a Soxhlet. The texture properties were performed by back extrusion test and the parameters of hardness, adhesiveness, adhesiveness force, apparent modulus and force required to squeeze were calculated. The particle size was measured using a dynamic light dispersion apparatus, and the average particle size, mod, and D50 of the emulsion particles of oil were investigated. The rheological behavior was performed by the rheometer and sensory evaluation was conducted by the hedonic method. Statistical analysis was performed by using SPSS software and the mean comparison test at 5% probability level and in the form of factorial test.

In the physical and thermal stability test of the emulsion, no two phases were observed in the samples. This could be due to the strong structure of the emulsion and the high viscosity of the continuous phase. By increasing the tofu value, the pH increased, which can be attributed to the decrease in the concentration of hydrogen ion or the increase of the aqueous phase. With increasing amount of gum, there is no change in pH, because the Persian gum has a neutral nature. Increasing the amount of gum did not affect acidity. As the tofu increased, acidity increased, and this increase was very slight, which can be attributed to buffering mode of tofu due to high amounts of high amino acids. By increasing the tofu percentage, the percentage of fat decreases because the percentage of fat in tofu cheese is law and its protein content is much. The increase in gum did not affect the amount of fat, because Persian gum structure was made up of saccharides. The tofu increase up to 35% reduced the texture properties, because the aqueous phase increased, with increasing gum percentage, texture properties increased because it produced a strong gel structure. With the increase in tofu content, the particle size of the oil decreased, because with increasing the amount of fat, the particle size increased. By adding gum the particle size decreased to 3% and then increased, because in the Persian gum structure, there are insoluble branches and the solubility of these branches is low. In the evaluation of rheological behavior, flow behavior test was investigated; viscosity of all samples was reported at shear rates of 0.1, 1, 10, 100/ sec. In all samples, the viscosity decreases with increasing frequency. By increasing the gum at a constant shear rate, the viscosity increased, which can be explained by the fact that the formation of a stronger structure in the presence of higher concentrations of gum. By increasing the shear rate at a constant concentration of gum, the viscosity decreased, and the increase in gum with increasing shear rate also reduced the viscosity and sauce had profit and plastic behavior that could be due to the opening of the bonds. As the tofu percentage increased in all shear rates, viscosity decreased and by increasing the tofu value at a constant shear rate, the viscosity decreased, and the increasing tofu with increasing shear rate reduced viscosity due to high moisture content of the cheese. The rheological parameters of mayonnaise sauce were checked in accordance with the power law. As the gum increased, the consistency coefficient increased , because the number of molecules with high molecular weight in the liquid phase increased, with increasing the percentage of tofu cheese, the coefficient of consistency decreased. The flow behavior coefficient does not have a clear trend, and since it is less than 1, the samples are non-Newtonian. In the strain scan test in lower strains, mayonnaise always has linear viscoelastic behavior. By increasing the gum concentration, both the elastic and viscous components are transported to higher values, which can be due to more interaction between the Persian gum and the components of the emulsion. In the sensory evaluation of the samples, the addition of gum and tofu percentage was not effective. With regarding the data of the tests, mayonnaise sample was identified with the replacement of 20% tofu cheese and 3.5% Persian gum as a superior sample, which its properties are closer to fatty mayonnaise and can be classified as Mayonnaise with law Fat. An extensive medicinal property of Persian gum with tofu cheese in mayonnaise sauce makes it a rich and very good source.

The growing public awareness of health issues, encouraged manufacturers to produce low-fat products. But choosing the best kind of fat substitutes in low-fat products is very important and a key factor, and need especial attention of low fat products producers. Therefore melon seed flour in levels of 0, 5, 10, 15, 20, 25 and 30% were used to replace part of the oil in the formulation of mayonnaise and parameters such as pH, protein, fat, ash, firmness, color values and sensory characteristics (flavor, texture, rub flexibility, color and overall acceptability) were evaluated. According to the results, by increasing melon seed flour in formulation of mayonnaise the amount of pH, protein, ash, firmness and a* value were increased significantly. While the fat, L* and b* values were reduced by increasing melon seed flour. Finally the sensory evaluation results clearly showed that the sample containing 15% melon seed flour had the highest score in overall acceptability. So based on this research results, melon seed flour is introduced as a fat or oil replacer in different kind of sauces especially mayonnaise.

Traditional mayonnaise is probably one of the oldest and most widely used sauces in all over the world. Mayonnaise is a product with particular consistency and is classified as a type of oil in water emulsions. Vegetable oil, acetic acid, and egg yolk are main components of mayonnaise. In addition, mayonnaise may contain salt, sweeteners, spices, effective flavor materials, preservatives and stabilizers. It must contain at least 78.5 % of total fat and 6 % pureegg yolk. Due tohigh levels of oil present in mayonnaise, continuous usageof this product may result in diseases such as obesity,arteriosclerosis, hypertension and cardiovascular diseases.Therefore, consumers tend to consume low-fat products.
Yoghurt is a very useful fermented milk products in terms of lactic acid bacteria that have beneficial effects on human health and Because of the similarity between this productand mayonnaise in terms of rheological properties, Yoghurt have been selected as a fat mimetic in mayonnaise.Therefore, the objective of present study was to investigate the effects of partial fat substitutionby yoghurt on physicochemical, rheological and sensory properties of low fat mayonnaise.
Mayonnaise preparation
One kilogram of each mayonnaise sample was prepared.Different recipes of mayonnaise contained yoghurt asfat mimetic (as % of oil and yoghurt) including (49.5 % & 25%), (33% & 50%), (16.5% & 75%). All formulations contained 13 % Egg yolk, 10 % Vinegar, 1 %Mustard, 1 % common salt ,4 % sugar , sodium benzoate 0.07 % , Xanthan gum 0.2%.Mayonnaise preparation procedure was as follows; firstlyegg and vinegar were mixed together and then all otherIngredients(including Yoghurt for the low fatmayonnaise recipes) except oil were added and mixed well. The oil was finally poured insidethe mixer very slowly and homogenized for 1 min. Subsamples (250 g) of mayonnaise were aseptically transferredto sterile 250 ml, Duran glass bottles withpolypropylenescrew caps and left for one-day at 5 °C.
Proximate composition analysis
Moisture, protein, and ash contents were determined accordingto AOAC (2005) official methods. Fat content wasmeasured by Bligh and Dyer (1959) method, and totalcarbohydrate content was calculated by difference.
Rheological measurements
Rheological measurements were performed after 24 hstorage using a Brookfield viscometer Model RVDV-IIwith aspindle no.6 at 5 °C and 25 °C. Shear stress data wereplotted versus shear rate for each mayonnaise sample ata range of spindle speed (10–200 rpm). Plots of Lnshear stress versus Ln shear rate (for each sample) werethen used to calculate values including flow behaviorindex (n) andconsistency coefficient (K).
Texture analysis
Mayonnaise samples were stored in refrigerator for 24 huntil texture analysis. The measurements were carriedout using a Brookfield texture analyzer (BrookfieldLFRA texture analyzer model number 4500 texture prolite) equipped with a 38 mm diameter cylindrical probeat 25 °C.
The condition of the analysis was as follows; one cyclewas applied, at a constant crosshead velocity of 1 mm/s to asample depth of 30 mm, and then returned. From the resultingforce-time curve, the values for texture attributes, i.e.firmness, adhesiveness, and consistency were obtained usingtexture pro lit software.
pH measurement and stability test
pH was determined using AOAC standard method at 25 °C. The samples were assessed for the stability
test after 24 h storage at 35 °C. Mayonnaise stability wasdetermined after centrifugation (10 min, 2,500 rpm), andwas expressed as the volume of separated phase to the totalemulsion volume.
Color measurement
Mayonnaise samples were measured for color in the L*, a*,b* system using a Lovibond Colorimeter.
Sensory analysis
After 1 day storage Sensory characteristics including appearance,color, odor, texture, taste, and overall acceptabilitywere evaluated by 14 semi-trained panel on 5-point hedonicscale (1 = the least or the lowest; 5 = the most or thehighest).
Statistical analysis
All the tests were performed in triplicate. The data collectedwere analyzed by one-way analysis of variance (ANOVA),and significant differences of means were compared usingDuncan test at 5 % significance level using SAS softwareprogram.
In present study, physicochemical, texture, sensory and rheological properties were evaluated in mayonnaise formulation with dairy-based. Fat was partially substituted by yoghurt at levels of 25, 50 and 75% which were referred respectively as SM1 (25% fat substitution level), SM2 (50% fat substitution level) and SM3 (75% fat substitution level) and the full fat mayonnaise (S) with 66 % oil was used as control sample. Results indicated that low-fat mayonnaise samples had considerably lower energy content compared with control sample, but higher water content than it. In terms of texture, SM3 had lower hardness compared with control sample. The samples exhibited thixotropic and shear thinning behavior through rheological studies and all samples were classified in the group of solid viscoelastic materials because, in all samples, storage modulus was greater than loss modulus. Also, the loss tangent of low-fat mayonnaise samples were higher than the control sample which reflects the tendency of these samples behavior to pseudo-liquid behavior. Results of sensory evaluation demonstrated that SM2 and SM3samples, were more acceptable. It was concluded that yoghurt can be used as a suitable fat replacer in mayonnaise formulation.

In the present study, effect of hulless barley ß-glucan on rheological properties of low fat mayonnaise was investigated. Mayonnaise fat was partially substituted by ß-glucan at different levels of 20, 30, 40, and 50%, which were referred to as BG20, BG30, BG40, and BG50, respectively. The full fat (FF) (75% oil) mayonnaise without ß-glucan substitution was used as a control experiment. Results of flow behavior showed that all samples were pseudoplastic and also power law model compared with Herschel bulkly showed higher correlation coefficient and thus it can better predict the flow behavior of the samples. In view of time-dependent behavior, all samples showed thixotropic behavior. Due to the results obtained from frequency test, it was revealed that in all samples the storage modulus was higher than loss modulus, which indicates the solid-viscoelastic behavior of the mayonnaises. Furthermore, tangant delta in all samples was less than one that shows higher elastic characteristic in the samples than viscose. It was also revealed that among all mayonnaise samples, the control had the highest tan delta. Finally, since the rheological properties of the control sample were retained even after reduced level of fat and incorporation of the hull-less barley ß–glucan into formulation it can be suggested that the hull-less barley ß–glucan can be used in order to improve the rheological properties of the low fat mayonnaise.

In this study, beta-glucan from hull-less barely was used to decrease fat level of mayonnaise at levels of 20, 30, 40, 50% (abbreviated names of low fat mayonnaise samples are BG20%, BG3%,BG40% and BG50% respectively) and physicochemical, textural and sensory properties of them were compared with control sample containing 75% fat (FF). The results showed all of low fat samples had lower energy content and higher moisture compared control sample. Results of textural and sensory experiments of low fat mayonnaise revealed that increasing level of fat replacement with beta-glucan from 20 to 50% decreased viscosity and altered textural properties so that with increase replacement percent and reduction of fat, the lowest and highest viscosity belonged to BG20% and BG30%, respectively. In term of textural properties the highest firmness and adhesiveness belonged to BG20%. In sensory evaluation the highest preference was observed in BG30% and BG50% that reveal the possibility of using beta-glucan as fat replacement in mayonnaise formulation successfully.