Food Technology
Marjan Karami; Leila Nateghi; Simin Asadollahi
Abstract
Introduction Oxidation of lipids results in changes that may affect the nutritional quality, wholesomeness, colour, flavour and texture of food. The aim of this study was to investigate the type and amount of phenolic compounds in ethanolic extract of aloe vera gel as a source of natural antioxidant ...
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Introduction Oxidation of lipids results in changes that may affect the nutritional quality, wholesomeness, colour, flavour and texture of food. The aim of this study was to investigate the type and amount of phenolic compounds in ethanolic extract of aloe vera gel as a source of natural antioxidant and its effect on the oxidative stability of soybean oil.Using synthetic antioxidant due to the possibility of toxic and carcinogenic effects is limited. Thus, it is important to find an alternative to synthetic antioxidants by natural antioxidant. Different intrinsic and extrinsic factors may initiate the oxidation of lipids. The initial products of oxidation are tasteless and odorless and after degradation and production of secondary products, the off-flavors and off-odors will appeared in edible oils. This is a great concern in food industry, because it decreases the shelf life of food products. Free radicals are produced during chain reactions in lipid oxidation process. To avoid this, synthetic antioxidants are usually used which are sensible to heat and are hazardous to human health and may cause cancer. Polyphenols have antioxidant activity and absorb free radicals. Thus, the vegetable oils rich in polyphenols can affect human health. In this research, we aimed to investigate the application of natural extract of aloe vera gel as a natural antioxidant to avoid soy oil oxidation and to compare it with synthetic antioxidants.The rate of oxidation reaction can be delayed by adding antioxidants. Consumers today tend to use natural antioxidants instead of synthetics. The overall purpose of this study was to investigate the effect of adding ethanolic extract of aloe vera gel as natural antioxidant on improving the stability of soybean oil. Materials and Methods The compounds in ethanolic extract of aloe vera gel were determined using GC / MS. The antioxidant activity was evaluated by the method of DPPH. For this purpose, ethanolic extracts of aloe vera gel were added to soybean oil in four different concentrations (500, 1000, 1500, 2000 ppm) and peroxide value, acidity, thiobarbituric acid, total phenol, oxidative stability to Rancimat method, fatty acid profile and sensory evaluation were performed on soybean oil samples and compared with the control sample containing 120 ppm BHA and soybean oil sample without adding antioxidants during 30, 60 and 90 days of storage at 25 ° C. Results and Discussion The results showed that by increasing the concentration of aloe vera extracts from 500 to 2000 ppm, the oxidation rate decreases during 90 days of storage, the amount of peroxide, thiobarbituric acid and acidity of soybean oil containing 2000 ppm ethanolic extract of aloe vera gel was lower than the control sample containing 120 ppm BHA. The total phenol content and free radical scavenging and stability to oxidative degradation by Rancimat method in soybean oil sample containing 2000 ppm aloe vera ethanol extract was higher than soybean oil samples containing BHA120 ppm. Evaluation of sensory properties showed that no significant difference was observed between the sensory properties of the oil sample containing 2000 ppm ethanolic extract of aloe vera gel and the control soybean oil sample of BHA120 ppm. Conclusion Considering that the sample of soybean oil containing 2000 ppm ethanolic extract of aloe vera gel had higher phenol content and free radical scavenging and more antioxidant properties than the control sample, it did not differ significantly from the control sample. Qualitative and health properties were selected as the superior treatment. The results of this study showed that the ethanolic extract of aloe vera gel can be used as a natural antioxidant instead of conventional synthetic antioxidants in the oil industry and to prevent oxidative spoilage of the oil in a desirable way. Therefore, it might be employed as a natural antioxidant in foods, particularly those containing edible oils.
Food Chemistry
Saeid Azizkhani; Leila Nateghi
Abstract
[1]Introduction: Nowadays, production and consumption of functional and dietary foods have increased. Today, the medicinal, antibacterial and antioxidant properties of fungi have been proven. Ganoderma lucidum is one of the fungi that has been known as the best medicinal fungus due to its various ...
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[1]Introduction: Nowadays, production and consumption of functional and dietary foods have increased. Today, the medicinal, antibacterial and antioxidant properties of fungi have been proven. Ganoderma lucidum is one of the fungi that has been known as the best medicinal fungus due to its various health benefits. Ganoderma lucidum is an annual medicinal fungus which belongs to the Ganodermataceae family. G. lucidum also known as Reishi in Japan, Ling-zhi in China, Ling chih, and Ling chi mushroom in other countries. It is popular among consumers in Japan and is widely used by Asian physicians and herbalists. This medicinal mushroom has been used in Asia for thousands of years to increase energy, stimulate the immune system, and promote health and longevity. In the US, G. lucidum is included in the American Herbal Pharmacopoeia and usually recommended for its immune-supporting effects. In Poland and other countries outside Asia, G. lucidum is used as a daily food supplement that adapts itself to correct imbalances in the body. Influenced by an increasing number of studies on G. lucidum, modern application of G. lucidum include but not limited to treatment of coronary heart disease, arteriosclerosis, hepatitis, arthritis, nephritis, bronchitis, hypertension, cancer and gastric ulcers. The major chemical constituents of G. lucidum are polysaccharides, triterpenes, sterols, lectins and some proteins having beneficial properties for the prevention and treatment of a variety of ailments. Both triterpenes and polysaccharides contain anticancer properties thus making them important nominees for the researches. Spores, fruiting body and mycelium have been investigated for biological active compounds. Ganoderma lucidum is a kind of mushroom known to have various therapeutic properties such as lowering high blood sugar and high blood pressure, boosting the immune system as well as its antibacterial and antioxidant effects.In recent years, a number of researches were performed for the identification of biological compounds and medicinal properties of Ganoderma lucidum. Materials and Methods: In this study, baguette bread with 0.5, 1, 1.5, 2 and 2.5 % Ganoderma lucidum powder was used in baguette bread formulation. The aim of this study was to investigate the possibility of enriching baguette bread using Ganoderma lucidum and to investigate the physicochemical, rheological, texture analysing, microbial, stale and sensory evaluation properties. Therefore, 5 treatments were designed with a control treatment and tests were performed on the treatments in three replications. In order to analyze the data, one-way ANOVA analysis of variance and Duncan at 95% confidence level were used in Minitab 16 software. Results and Discussion: Examination of the rheological properties of the dough showed that different percentages of Ganoderma lucidum significantly affect the rheological characteristics of the dough (p≤0.05) and addition of Ganoderma lucidum reduced the above indices. According to the results, addition of Ganoderma lucidum caused a significant increase (p≤0.05) of phenolic compounds and fiber in bread samples. The results of microbial evaluation showed that with increasing Ganoderma lucidum level in baguette bread, the number of coliforms and molds in the treatments decreased significantly (p≤0.05). The results of sensory evaluation showed that the increase of Ganoderma lucidum level in baguette samples caused a slight decrease in taste, color, odor and general acceptance compared to the control sample.Fungi are rich in protein, pigment, carbohydrates, fatty acids, vitamins and minerals that can be used in food enrichment. Due to the growing human tendency to use natural substances, fungi can be a suitable source to meet this need. According to the results, up to 2.5 % of Ganordama lucidum can be added to baguette bread formula and higher fiber content, more phenolic compounds, more freshness, less microbial load in baguette bread were obtained without having an adverse effect on its sensory properties. Therefore, the treatment mentioned in this study was selected as the best treatment in terms of safety, health and quality properties.
Food Technology
Elham Mobini; Leila Nateghi; Mohammad Reza Eshaghi
Abstract
Materials and Methods: To compare physicochemical (pH, humidity, brix and water activity), texture properties (adhesiveness, cohesiveness, springiness, gumminess, chewiness, hardness and deformation of hardness), color indices (L*, a* and b*) and sensory (taste, odor, color, texture and overall acceptance) ...
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Materials and Methods: To compare physicochemical (pH, humidity, brix and water activity), texture properties (adhesiveness, cohesiveness, springiness, gumminess, chewiness, hardness and deformation of hardness), color indices (L*, a* and b*) and sensory (taste, odor, color, texture and overall acceptance) properties of pastille obtained from fish gelatin. The experiments were performed in a completely randomized design. In this study, 5 treatments with three repetitions were examined. In order to compare the means, Duncan's one-way analysis of variance was used at the 95% confidence level using Minitab software version 16. Results and Discussion: According to the results of gel formation temperature, gel melting temperature and gel melting time of fish gelatin were lower than commercial gelatin but gel formation time in fish gelatin was higher than commercial gelatin. Also, the extraction efficiency of gelatin from Kilka fish was 9.204%. Effect of different percentages of extracted fish gelatin on pH, moisture, brix, water activity, color indices (L*, a* and b*), texture properties (adhesiveness, cohesiveness, springiness and gumminess) and sensory evaluation (taste, odor, color, texture and overall acceptance) was significant (p>0.05). The results showed that by increasing the replacement of different percentages of fish gelatin, pH, Brix, L*, all textural histological and sensory evaluation factors decreased and moisture content, water activity and colors a* and b* increased. Differences in pH of gelatins may be due to the type and strength of acid used during the extraction process. Also, due to the replacement of fish with skin and bones in acid and due to having more minerals in the bones than fish meat, more acidic treatment is needed. Therefore, the difference in pH of fish gelatin and cow gelatin can be different depending on the extraction conditions and the type of fish. Hydrochlorothiazine gelatin is a protein that, at temperatures above 35 to 45 degrees Celsius, has a complex structure that dissolves in water and increases brix. The results showed that the amount of water activity of samples containing fish gelatin was higher than commercial gelatin, which could be due to the higher moisture content of gelatin extracted in fish and the extraction conditions and its use in the production of pastilles. The presence of Kilka fish gelatin in the pastel formulation caused the samples to get darken or turn red due to the increase in a * and b * indicators. The reason for the discoloration of the specimens can be due to the presence of carotenoids in the tissues of fish (tonagazantine (yellow), lutein (yellowish-green), beta-carotene (orange), duragazantine (yellow), zaxanthin (orange-yellow), Contagantine (red-orange), astaxanthin (red), and taragzantine (yellow)). The reason for the instability and poor rheological properties of fish gelatin compared to commercial gelatin is mainly related to the low number of proline-rich regions and low amounts of immunoassides (hydroxyproline and proline) in the collagen and gelatin molecules of fish compared to warm-blooded animals. The content of proline and hydroxyproline amino acids in fish gelatin is lower than in animal gelatin, such as pork, which exhibits better viscoelasticity. Therefore, they show weaker viscoelastic properties than commercial gelatin. In addition, fish gelatin contains less alanine, and this amino acid is commonly found in areas rich in proline and hydroxyproline. Most of these amino acids in commercial gelatin are one of the main reasons for their higher viscosity. The release of flavor is significantly related to the texture of the gel, and gelatin gels, due to the harder texture, release less flavor, which in turn reduces the overall acceptance score in samples containing high amounts of gelatin. Watman's filter paper, vacuum pump, ion exchange resin are commonly used to remove odors and derivatives, and vacuum evaporators are used to eliminate the unpleasant odor of fish in order to eliminate odors, dyes, unfavorable fish flavors, and unstressed collagen. However, the smell and taste of the remaining fish of the above methods reduce the sensory evaluation scores in treatments containing fish gelatin, and the main reason for the decrease in sensory evaluation scores in fish gelatins is the persistence of fish odor and taste in gelatin.T2 treatment (containing 50% fish gelatin + 50% commercial gelatin) was selected as superior treatment because of its proximity to control, physicochemical, rheological and sensory evaluation. In general, the results showed that using different percentages of gelatin extracted from Kilka fish had no adverse effect on the physicochemical and rheological properties of pastille and only sensory evaluation reduced due to the taste and odor of Kilka fish. The taste of pastilles produced covered the poor sensory evaluation properties of fish pastels produced from gelatin and used in industrial gelatin production.
Food Chemistry
Atefeh Irankhah; Leila Nateghi; Simin Asadollahi
Abstract
Introduction: Currently, synthetic antioxidants are used to reduce the oxidation of oils and fatty foods and to prevent the reduction of the nutritional value and sensory properties of edible oils. Due to the adverse effects of synthetic antioxidants, the use of natural antioxidants seems essential. ...
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Introduction: Currently, synthetic antioxidants are used to reduce the oxidation of oils and fatty foods and to prevent the reduction of the nutritional value and sensory properties of edible oils. Due to the adverse effects of synthetic antioxidants, the use of natural antioxidants seems essential. Ferulago angulata extract is a natural source of antioxidants that, in addition to enhancing flavor, help extend the shelf life of the product. The aim of this study was to investigate the antioxidant effect of Ferulago angulata extract on the physicochemical and sensory characteristics of potato- chips and the resulting oil during shelf life. Ferulago angulata plant was purchased from the local market of Sarpol-e-Zahab city in Kermanshah province and was extracted using 96% ethanol soaking and solvent by distillation machine. The thin sheets of potatoes were fried in oils containing 1000, 2000, 3000 and 4000 ppm of chamomile extract and the oil containing 100 ppm of synthetic antioxidant TBHQ at 190°C for 9 minutes. The ability to inhibit DPPH free radicals, total phenolic compounds, and sensory evaluation on potato chips and peroxide, acidity, and thiobarbituric acid tests on oil from frying potato chips over time 1, 15 and 30 days of storage were evaluated. The results showed that the use of Ferulago angulata extract increased antioxidant power in inhibiting DPPH free radicals and total phenolic compounds and reduced the amount of peroxide, acidity and thiobarbituric acid, so that the lowest amount of peroxide, acidity. And thiobarbituric acid and the highest amount of total phenolic compounds related to treatment containing 4000 ppm of Ferulago angulata extract. A treatment containing 4000 ppm of chamomile extract has the highest resistance to oxidative spoilage and can be compared to synthetic antioxidant TBHQ. The results of this study showed that using Ferulago angulata extract with a concentration of 2000 ppm, a potato chips with desirable organoleptic properties can be obtained and used as a suitable alternative to synthetic antioxidants such as TBHQ in food and oil oxidation. Materials and Methods: Ferulago angulata plant was purchased from the local market of Sarpol-e Zahab city in Kermanshah province. Then, by Herbarium of Medicinal Plants, Faculty of Pharmacy, University of Tehran, its scientific name was confirmed as Boiss (Schlechat) Ferulago angulata, belonging to the Apiaceae family. 96% ethanol soaking and solvent were used for extraction. For this purpose, 100 grams of powdered leaves of Ferulago angulata plant were carefully weighed by a digital scale balance. Then, to prepare ethanolic extract, 500 ml of 96% ethanol was added to the Erlenmeyer flask. For 72 hours, the flask was placed at room temperature on a 1500 rpm magnetic shaker to fully extract the Ferulago angulata t. The solvent mixture and the plant were then separated by filter paper. Then squeeze the pulp until it is completely emptied and finally the initial extract is obtained. The initial extract was centrifuged for 10 min at 3000 rpm. The resulting extract was then poured into a vacuum distiller (rotary) and heated to 80 °C for one hour to evaporate the solvent from the extract. The concentrated extract contained 4.0623 mg of gallic acid per gram, total phenol and IC50. Ferulago angulata extract in concentrations of 1000, 2000, 3000 and 4000 ppm and TBHQ synthetic antioxidant with a concentration of 100 ppm in frying oil (a mixture of super olein, soybean and sunflower oils) without antioxidants in dark color glass was added and a sample of oil without antioxidants was prepared. Variegated potatoes are washed, peeled and then cut into thin slices using a slicer and immersed in water until fried. Immediately after the dewatering, the potato slices were transferred to a frying pan containing a variety of oils and fried for 9 minutes at 190 °C. The fried sheets were then cooled to room temperature. The frying oil was kept in a 20 °C oven. Then, at 1, 15 and 30 days after storage of frying oil in a 20 °C oven, t the acid number, peroxide and thiobarbituric acid on the oil from frying the potato chips were determined. Sensory and phenolic compounds and DPPH were performed on potato chips. Data analysis was performed using Minitab-16 software and ANOVA. Results and Discussion: The aim of this research was to investigate the antioxidant effect of Ferulago angulata extract on the physicochemical and sensory properties of potato chips and the resulting oil during its shelf life. According to the results, the highest and lowest levels of acidity, peroxide and thiobarbituric acid were assigned to the control treatment (synthetic anti-oxidant oil) and the treatment containing 4000 ppm of Ferulago angulata extract, respectively. Examination of phenolic compounds showed that by using Ferulago angulata extract and increasing its concentration, antioxidant properties increased and the highest antioxidant property was belonged to the treatment containing 4000 ppm of Ferulago angulata extract, which contained higher phenolic compounds. The results of sensory evaluation showed that the highest score of sensory properties was given to the control treatment and treatments containing 1000 and 2000 ppm of Ferulago angulata extract. As can be seen, antioxidant properties and polyphenolic compounds had the opposite effect on sensory scores. The fried chips in oil containing 2000 ppm of Ferulago angulata extract were selected as the optimal treatment in terms of the highest score of sensory evaluation. The results showed that the extract of Ferulago angulata plant could be a good alternative to synthetic antioxidants in frying oils to delay the oxidation of frying oil, and in addition to its antioxidant properties, it can create desirable sensory properties in fried foods and reduce the risk of consuming these foods.
Food Technology
Ali Kashani; Maryam Hasani; Leila Nateghi; Mohammad javad Asadolahzadeh; Parvin Kashani
Abstract
Introduction: Nowaday, the demand for low calorie food based and keeping primary features including texture and taste is increasing. Jelly is one of low calorie products produced from fruits and other components, and its consumption is increasing for human health. Jelly is semi-solid and transparent ...
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Introduction: Nowaday, the demand for low calorie food based and keeping primary features including texture and taste is increasing. Jelly is one of low calorie products produced from fruits and other components, and its consumption is increasing for human health. Jelly is semi-solid and transparent product that prepared with the use of sugar or juice and pectin or gelatin and flavor and color may also be added. Potato peels contain valuable substances such as pectin. Using potato peels to produce pectin with appropriate properties can solve the environmental issue resulting from these wastes in addition to make value added product. Pectin is a complex polysaccharide that is found in the wall of early plant texture and in the intercellular layer. Pectin contains a group of rich polysaccharides of galacturonic acid units with lower amounts of different sugars (Baiano, 2014). Two commercial forms of pectin are available: high-methoxyl and low-methoxyl pectin (high ester and low ester pectin). High-ester pectin forms a gel in a solutions containing high soluble solids and acidic systems, whereas low-ester pectins form more gel at wider pH and range of solids content but they do require divalent cations to form the gel (Kratchanova et al., 2012). In the food industry, pectin is used as a jelly-making agent, especially in the production of jellies and jams. Pectin is also used in fillers, medicine, pastries, bakery products and also as a stabilizer in juices and beverages, as well as in dietary fiber (Sharma, 2006). Pectin also has therapeutic benefits such as lowering blood cholesterol levels, removing heavy metal ions from the body, stabilizing blood pressure and facilitating intestinal activity (Ptichkina et al., 2008). Temperature, pH, and acid extraction time are the most important factors affecting the extraction yield and quality of produced pectin (Yapo et al., 2007). Currently, almost all commercial pectins are produced from citrus or apple peels, both of which are juices by-products (Thirugnanasambandham et al., 2014). Therefore, the main objective of this study was to optimize the conditions of extraction of pectin from potato peel by response surface methodology and to compare the physicochemical properties of Jelly produced from potato peel under optimum conditions with Jelly produced from apple and citrus Material and methods: Potato of Granola variety was purchased from the local market in Ardebil. The chemicals used for the tests include: citric acid, sodium hydroxide, phenolphthalein, and Calcium chloride were purchased from Merck Company (Germany). The method of Hoseeni et al (2017) was used for jelly production with slight modification as follows. In the First step,0.5 and 1% pectin extracted from potato peelings, 30 % Sugar, 0.014 % Cherry edible color and 0.75 % Cherry essential oil were mixed then 100 CC Boiling water was added to the mixture and mixed again. After the sugar was completely dissolved, 15, 30, and 45 mg of calcium chloride was added per gram of pectin. The pH of the samples was regulated by citric acid solution on 2.5 and 4. The heating of the samples was continued until the brix of the treated treatments was set to 42. The prepared samples were kept at room temperature for half an hour. The treatments were then refrigerated for 2 to 3 hours to complete the jelly closing process. For this purpose some jelly characteristics such as texture properties, physico-chemical (pH, acidity, brix, moisture and Drainage) and sensory properties of samples were investigated using five point hedonic scale. A one-way analysis of variance and Duncan test (P≤ 0.05) in three replications were used to establish the significance of differences in the experimental data. The results were analyzed using the Minitab version 16. Results & Discussion: Results showed that by increasing calcium chloride, pH and Pectin concentration had a significant effect on increasing the hardness of the gel and the strength needed to make the gel brittle (P≤0.05).The highest hardness of the gel in pectin emulsion extracted from potato peel was 30.0959 N and highest force required to break the gel was 27.3431 N in the most severe extraction conditions at Calcium chloride 35.2286 mg/g, Pectin concentration 1% and pH 4. Results of physico-chemical properties showed that there was no significant difference between pH, acidity, brix and moisture of jelly made from apple pectin and citrus and apple commercial pectin. The results of the syneresis showed that the syneresis by the jelly of potato pectin is not similar with jelly from apple pectin and citrus and apple commercial pectin significantly different. Also Results of sensory properties showed that it was no significant difference between jelly from apple pectin and citrus and apple commercial pectin. The results of this study showed that by optimizing the production conditions, potato pectin can be used in jelly formulation and jelly can be produced with desirable and comparable quality compared to the commercial pectins
Farnaz Sadeghi; Leila Nateghi
Abstract
Introduction: There have been great efforts to find safe and potent natural antioxidants from various plant sources. Due to the side effects of chemical preservatives and as a support of the idea for consumption of green natural food, demand for studies on the antimicrobial properties of natural preservatives ...
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Introduction: There have been great efforts to find safe and potent natural antioxidants from various plant sources. Due to the side effects of chemical preservatives and as a support of the idea for consumption of green natural food, demand for studies on the antimicrobial properties of natural preservatives and essential oils on the important food borne pathogens in vitro and in food products has been increased. Medicinal plants are complex natural mixtures which contain compounds at quite different concentrations, and their antioxidant activities are due to many substances including some vitamins, flavonoids, terpenoids, carotenoids, phytoestrogens, minerals, etc. Essential oils existed in some herbs or their antioxidant components as preservative agents in food makes them to be proposed as potential substitutes of synthetic antioxidants in food stuff. Antioxidants are also widely used as additives in fats and oils and in food processing to prevent or delay spoilage of foods regarding to the harmful effects of synthetic preservatives on consumers’ health, there is an increasing attention, both in food industry and authorities, to medicinal and aromatic plants as natural preservatives in food products. White brined cheese is a kind of hard cheese which is produced from raw milk of cow, lamb and the main characteristics of the taste are pickling and salinity. White cheese, salt water, including products that may be at the time of manufacture or during storage by microorganisms such as Listeria. The objective of the present study was to investigate physicochemical properties, anti-microbial and sensory properties of frankincense essential oil and shallot oil in white brined cheese. Material and methods: The whole treatments in this research were included: T0 (control), T1 (0.5% (w/w%) Frankincense and 0% shallots essential oil), T2 (0.6% (w/w%) Frankincense and 0% shallots essential oil), T3 (0.7% (w/w%) Frankincense and 0% shallots essential oil), T4 (0% Frankincense and 0.05% (w/w%) shallots essential oil), T5 (0% Frankincense and 0.1% (w/w%) shallots essential oil), T6 (0% Frankincense and 0.2% (w/w%) shallots essential oil), T7 (0.6% Frankincense and 0.1% (w/w%) shallots essential oil). In order to produce a white brine cheese, in the first step, the raw milk was pasteurized at 72 ºC for 15 seconds and cooled at 35ºC, then 5 liters of milk were poured into each of the sterile specialty dishes. Then, Listeria monocytogenes (103 cfu / ml) were then inoculated into milk samples. In the next step frankincense essential oil concentrations (0.5%, 0.1%, 0.6%) and shallot oil concentrations (0.05%, 0.1%, 0.2%) and mixture (0.1%+ 0.6%) were added. Then 0.02% (w/v) calcium chloride was added and after 0.5 % (w/w) of starter culture containing lycoplastic bacteria Lactobacillus bulgaricus and Streptococcus thermophiles were added into the milk samples and mixed. Finally, after the milk pH reached about 6.5, 0.001% (w/v) of microbial rennet was also added (Sanjiu Mito Japan Co.) After dissolving it, sterile water was added into the milk at 35 °C and 8 minutes for milk coagulation resting time was given. After coagulation (60 min), the cheese samples were cut into 1-2 cm slices and wrapped in a cloth to be kept in room temperature for 6 hours under 12 kg weight plates for dewatering. Coagulants were impregnated in 20% (w/v) salt water for 6-8 hours after cheese samples were cut while transferring to 8% salt water at 12-14 ° C for 15 days. Therefore, samples after the initial arrival time to arrive at the final arrival were kept at 4 ° C for 60 days (ISIRI NO. 5772, 2001). The essential oils chemical composition were determined by gas chromatography equipped with mass spectroscopy (GC/MS). GC-MS analysis of the essential oil was performed using Agilent-Technologies 6890N. Physicochemical, microbial and sensory properties of samples immediately on days 1, 30, 60 were measured but protein and fat on day 1after produced were measured. Total protein was determined by macro kjeldahl method with national standard No. 1811 (Anonymous, 1383). Fat was determined by Gerber's method with national standard No. 8587. pH was determined by a MA-Mettler pH-meter and titratable acidity (percentage of lactic acid) was determined by 0.1 normal and phenolphthalein as identifiers using national standard No. 2852 (Anonymous, 1385). Level of moisture was determined by national standard No. 1753 (Anonymous, 1381). Salt percentage was determined by Moher method with national standard No. 1809 (Anonymous, 1356). To measure the number of Listeria monocytogenes, the microorganisms were measured in Palcam Agar Surface cultivation method at 30ºC for 72 hours (Khosravi and Malekan, 2004). Sensory analysis was performed by 10 trained panelists using a five point hedonic method with scales of one (very good), two (good), three (average), four (bad), and five (very bad) for taste, smell, texture, and overall acceptability with national standard No. 3442 (Anonymous, 1387). In order to design the treatments, a completely randomized design with factorial arrangement was used. For data comparison, Duncan's test was used at 95% confidence level. Minitab 16 software was used to analyze the statistical data. Results and discussion: The results showed that the antimicrobial essential oils of the highest possible antimicrobial against Listeria monocytogenes was shallots average number of bacterial treatments 0.2% essential oil shallots (T5) and 0.7% Frankincense essential oil (T3) at the end of the maintenance period cheese was 0.147 ×102 cfu/ml and 0.000 cfu/ml, respectively, when compared with other treatments maximum reduction showed (p≤0.05). Sensory evaluation results showed that the control cheeses had the highest sensory acceptability. Given that treatment with 0.2 shallot oil had the highest germicidal effect and organoleptic properties statistically significant difference between treatment and control samples were not mentioned. Therefore, the use of essential oils 0.2% in the formulation of white cheese shallot salt water in order to prevent the growth of Listeria monocytogenes is recommended and the treatment was selected as the best treatment.
Zohreh Bor bor moradi; Leila Nateghi; Orang Eivaz zadeh
Abstract
Introduction: Flour products are one of the most widely used food products in all over the world. Various types of pastry products derived from wheat flour are including the varieties of soup, plumura, and cane produced by traditional and semi-industrial methods. They are categorized in the bread and ...
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Introduction: Flour products are one of the most widely used food products in all over the world. Various types of pastry products derived from wheat flour are including the varieties of soup, plumura, and cane produced by traditional and semi-industrial methods. They are categorized in the bread and cereal group. The place of wheat- flour dough products, including Ashi noodle in the food basket of Iranian households, is gradually being consolidated. This product is a mixture of wheat flour, water and salt after the treatment process by the machine before being dried. The high consumption of salt in the Ashi noodle leads to the development and progression of hypertension in addition to increasing the risk of cardiovascular disease and, on the other hand, reducing salt leads to problems such as loosening and loss of Ashi noodle drying, as well as the degradation of the strand when boiling. Hydrocolloids or gums are compounds creating consistency and texture and increasing stability, acting as emulsifiers, forming gels, and improving oral sensation. Materials and methods: The general objective of this study was to investigate the effects of adding Farsi gum extract at concentrations of 0.2, 0.4, 0.6, 0.8, 1 and 1.2% based on the weight of flour instead of the salt used in the control group of the Ashi noodle (4.5%) on the rheological properties of Ashi noodle, as well as the evaluating physicochemical, texture, colorimetric, qualitative and sensory properties of low salt Ashi noodle one day after production. Zedo gum is a clear gum leaked from mountain almond trees. Zedo gum is found in white, light yellow, yellow vegetable, orange yellow, red and brown, in various sizes and forms. This gum is also composed of Arabinose and Galactose units. It is also known as Shirazi gum. Therefore, seven treatment groups and a control group were designed according to a completely randomized design. In order to analyze the data, Duncan’s method was used at 95% significance level in mini-fever software. Results and discussion: The results of rheological tests of dough with aloe vera revealed that salt reduction and increased gum significantly (p≤0.05). Those rheological properties of the aqueous pulp which were influenced were including mean curve height, mean curve length, inflation index, and mean surface under the curve, configuration test, and elasticity. The physicochemical results showed that by adding gum and reducing salt content. The amount of moisture was increased and the amount of ash and salt decreased significantly. The results of texture test were determined by texture analysis analyzer. By reducing salt, increasing the concentration of gum, and the hardness of the treatments, the decreasing trend and adhesion rate increased, with the highest adhesion ratio for gum samples 1 and 2. There was no statistically significant difference in the level of adhesion, elasticity and gumminess. The results of colorimetric tests with Hunter lab showed that there was no statistically significant difference in the color components a*, b⃰ and L* between all treatments with the control sample. In evaluating the qualitative characteristics of Ashi noodle, it was shown that by reducing the amount of salt to 3.90% and adding gum to the concentration of 0.6% of the weight of the heterogeneous strands, the weight of the broken and degraded strands showed a decreasing trend compared to the control; and in the concentrations higher than 0.6% gum, these incremental changes showed a statistically significant difference between the samples with 1.2% gum and the other treatments. Moreover, the results of sensory evaluation indicated that there was no significant difference compared to the control sample by reducing the amount of salt to 3.90% and adding 0.6% gum to smell, color, texture and overall acceptance of treatments. The taste score of all treatments did not differ significantly from the control sample. The results of this study showed that the amount of Ashi noodle salinity could be reduced to 0.6%, and instead, gum can be added to it with no effect on the qualitative, textural and sensory properties of the Ashi noodle compared to the control sample.
Baharak Hassas; Leila Nateghi; Alireza Shahab lavasani
Abstract
Introduction: Jug cheese is a kind of hard cheese which traditionally produce from raw milk of cow, sheep and sometimes goat in west part of Iran. Its rippening period passed through the clay jug inside the soil, so it contains some varieties of microorganisms that provide it with specific and unique ...
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Introduction: Jug cheese is a kind of hard cheese which traditionally produce from raw milk of cow, sheep and sometimes goat in west part of Iran. Its rippening period passed through the clay jug inside the soil, so it contains some varieties of microorganisms that provide it with specific and unique sensory properties. However, the transmission of some pathogenic bacteria in this product and its high fat content is very important in terms of general health.Therefore, the general objective(aim) of this study was to investigate the physicochemical, antimicrobial and sensory properties of low-fat jug cheese( produced produced from milk with 1.5% fat) Jug cheese containing Beta-Glucan powder ( 0. 25%, 0.5%, 1%) and menthe longifolia ethanolic extract (0.1, 0.2 and 0.3) and with compare the results with control cheese (produced from milk with 3% fat)during 60 days of ripening. Antibacterial results showed that properties using beta-glucan had no significant effect on the antimicrobial properties of the treatments and The use of ethanolic extract of mentha longifolia and increasing its concentration had significantly in the most extreme of the antimicrobial properties of treatments. According to results after 60 days of storage, the treatments containing 0.3% of Mentha longifolia extract, in comparison to the other treatments and Showed the most extreme decrease in the total count of microorganisms, lactobacillus, mould and yeast, coliforms, esherchia coli and staphylococcus aureus. The physicochemical properties investigation showed that the protein, fat, acidity and nitrogen soluble in water durin the preservation period have increased and pH, tissue hardness of the samples have significantly (p≤0.05) decreased. The results of sensory evaluation of cheese showed that the treatment which contained 0.5% beta-glucan and 0.3% ethanolic extract of mentha longifolia has the highest sensory properties. So using 0.5% beta-glucan and 0.3% ethanolic extract of menthe longifolia in low- fat cheese formulas can produce safe cheese with microbial and optimum texture at standard level.
Materials and Method: Jug cheese was produced from 1.5 fat cow milk obtained from Spoota Food Industries Complex, Urmia, Iran. First, milk was heated at 32-35ºC and cooled at 30ºC, then 0.06% cheese rennet (plant rennet, Cominux, Spain) was added and mixed for 5 minutes. After coagulation (45 min), the cheese was cut into 1*1*1 slices and wrapped in a cloth to be kept in room temperature for 12 hours under 0.1 weight plates for dewatering. Coagulants were impregnated in 3.5% salt solutions (since jug chesses is granular, there was no need to chop the samples). Therefore, the samples were squeezed into jugs and the jug was buried top-down in a 1-meter depth hole. Physicochemical, microbial and sensory properties of samples immediately after they were produced and on day 60 (1440 hours) were measured (Pakbin, 1391). Total protein was determined by macro-kjeldahl method with national standard No. 639. Soluble nitrogen was determined by kjeldahl method. Fat was determined by Gerber's method with national standard No. 366 (Anonymous, 1370). Level of moisture was determined by national standard No. 1753. pH was determined by a MA-Mettler pH-meter and titratable acidity (percentage of lactic acid) was determined by 0.1 normal and phenolphthalein as identifiers using national standard No. 2852 (Anonymous, 1385). Ash from cheese samples was measured by burning and full oxidation of food products in an oven at 550ºC (Khosroshahi, 1387). The Mohr titration method with national standard No. 1809 was used to measure salt in cheese samples (Anonymous, 1356). Tissue hardness (pressure or density) was measured using Universal Instron model 1140 and a probe at a constant speed of 100 mm/min. Compression test of cheese samples was done using a 36mm diameter cylindrical probe (hoseini et al, 1392). To measure number of living microorganism in jug cheese samples. To do so, 1g cheese was chopped with a sterile crucible or a mortar and mixed with 9cc buffered Peptone water. About 0.1cc of the solution was cultivated on a special medium by surface cultivation method. Number of microorganisms was measured by national standard No. 5484 in Kant Agar Plate mediums at 30ºC for 72 hours (Anonymous, 1381). Lactobacillus was measured in an MRS-Bile Agar medium (0.15% bile salt) with national standard No. 17164 at 37ºC for 72 hours (Anonymous, 1392). Molds and yeasts were measured, based on national standard No. 10154, in the YGC Agar medium for 5 days at 25ºC (Anonymous, 1386). To measure total formations, based on national standard No. 11166, a VRBA medium with two-layered pure palet method at 35ºC for 18-24 hours (Anonymous, 1387). E. coli was measured, with national standard No. 5234, in an EC Broth medium at 35ºC for 23 hours (Anonymous, 1394). Staphylococcus aureus was measured, based on national standard No. 6806-1, in a Bird-Parker medium with yolk and potassium tellurite at 37ºC for 48 hours (Anonymous, 1384). Sensory analysis was performed by 9 trained evaluators using a Five Point Hedonic Method with scales of one (very good), two (good), three (average), four (bad), and five (very bad) for taste, odor, tissue, and overall acceptability (Anonymous, 1387). In order to design the treatments, a completely randomized design with factorial arrangement was used. Treatments were designed with a control sample.To data analyze use Duncan one-way analysis of variance.
Results & Discussion: The results of antimicrobial evaluation showed treatments containing 0.3% ethanolic extract of mentha longifolia compared to other treatments showed the greatest reduction in total count of microorganisms, lactobacillus, mildew and yeast, coliforms, E. coli, Staphylococcus aureus. Thus, results of the study showed physicochemical characteristics the amount of protein, fat, acidity and nitrogen soluble in water increased and pH, moisture and texture hardness of samples significantly decreased (p≤0.05). The evaluation of sensory properties showed that treatment containing 0.5% β-glucan and 0.3% ethanolic extract of mentha longifolia had the highest sensory acceptability. Therefore, the use of 0.5% β-glucan with 0.3% ethanolic extract of mentha longifolia in the formulation of low-fat jug cheese, can be produced safe cheese with microbial and optimum texture at standard level.