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Potato is known as a valuable source of starch which plays an important role in human nutrition. Proper storage conditions should be considered to protect the nutritional properties of potato after drying. The effect of three packaging materials (transparent biaxially oriented polypropylene laminate (BOPP); semitransparent BOPP; polyethylene-polyamide (PE-PA) laminate) in three packaging conditions (vacuum, N2, natural atmosphere) and in two temperature treatments (blanching in hot water; steam) on microwave-dried potato (Solanum tuberosum L.; Solanaceae) cubes was studied. Moisture content and oil absorption decreased in microwave dried potato by increasing storage time from 60 to 120 days. The moisture loss rate in vacuum packed samples in polyethylene polyamide film was less than BOPP. Steam blanched samples not only had more moisture but also absorbed less amount of oil. The dried and packed potatoes under nitrogen atomospher and in transparent BOPP had the highest percentage of oil absorption with 9.75% and 9.87%, respectively. Changes in the internal structure, moisture and gelatinization of starch in the surface are factors affecting the absorption of oil. Blanched samples with steam and vacuum packed in polyethylene polyamide films, have the best results in increasing the shelf-life and reducing oil absorption.

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Now a day antioxidants are widely used in foods to reduce the rate of oil oxidation reaction and researchers looking for potent antioxidants by less toxicity and greater efficacy. Plants are one of the best sources of natural antioxidants. Therefore, the aim of this study was to investigated the effect of adding different levels of alcoholic extract of Salvia leriifolia (0, 1, 2 and 3%) as a natural preservative to improvement storage time of fermented doughnut compared to TBHQ as commercial antioxidant on the physicochemical, textural and sensory properties of the final product in a completely randomized design (P˂0.05). The results showed that increasing the level of Salvia leriifolia extract from 0 to 3% had no effect on moisture content, specific volume, porosity and firmness of the final product (evaluated in three times of 2 h, 4 and 7 days after baking). However, by increasing the amount of this extract in fermented doughnut formulation, the peroxide index compared to other sample and the amount of total phenolic content, the antioxidant activity by DPPH method and the oxidative stability index at 2h, 4 and 7 days after baking were decreased and increased, respectively. On the other hand, the results showed that addition of Salvia leriifolia extract at different levels had no effect on the sensory properties of the final product. The results also indicated that the antioxidant activity of the sample containing 3% of Salvia leriifolia extract had the ability to compete with fried doughnut in oil containing synthetic antioxidant TBHQ. Therefore, the sample containing 3% of Salvia leriifolia extract was selected as the best sample because it had high antioxidant resistance, secondly, the addition of this extract had no adverse effect on physicochemical and sensory properties of the final product.
 

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Today, with the rise of awareness and changing attitudes, the demand for healthy foods has increased. The effective compounds of black seed with its antioxidant and antimicrobial properties are of interest to many researchers. The aim of this study was to benefit from the functional properties of black seed oil in a food model. In the first phase, the peroxide index, color and antimicrobial properties of free and alginate encapsulated black seed oil were investigated. In the second phase, microbial and sensory properties of 4 chocolate ganache samples (preservative free (G or Control), preservative free + inoculated microorganisms (GM), containing 3% free black seed oil + inoculated microorganisms (GOM) And containing 3% of encapsulated black seed oil + inoculated microorganisms (GOM)) were compared. The results of the first phase showed that MIC and MBC of free black seed oil on Salmonella typhimurium, Escherichia coli, Staphylococcus aureus, Aspergillus niger and Candida albicans were higher than the encapsulated black seed oil. Also, the highest and lowest antimicrobial effects of black seed oil were observed on Candida albicans and Escherichia coli, respectively. The peroxide index and color of free black seed oil was more than encapsulated black seed oil . Also, the results of the second phase showed that the presence of black seed oil in the chocolate ganache formulation reduced the microbial load of the produced samples. However, the antimicrobial action of free black seed oil on the microbial load of the food model was more than encapsulated black seed oil. Finally, the results of sensory evaluation showed that chocolate ganache containing encapsulated black seed oil had better sensory properties compared to the sample containing free black seed oil.
 

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 The use of medicinal plants or the components extracted from them in different sectors of the food industry has received special attention. Therefore, in the present research, linseed oil was used in two forms, free and microcoated with alginate, in the formulation of cocoa cream. The aim of this research was to produce an functional chocolate ganache containing natural preservatives. The extraction efficiency of linseed oil was 27.73 %. The main component of linseed oil was α-linolenic acid (47.1%) and the least fatty acid detected in it was myristoleic acid (0.06%). The results showed that both evaluated oils had considerable antibacterial effects against tested microorganisms (S. Typhi, E.coli, S. aureus, A. niger, and C. albicans) and gram-negative bacteria were more resistant to linseed oil than gram-positive ones. In this regard. Black seed oil showed higher antibacterial activity and both linseed and black seed oil microcapsules had lower antibacterial effects than their free form. The sample containing 3% encapsulated linseed oil had more favorable sensory peroperties than the sample containing this oil in free form. However, the free form showed higher antibacterial activity but in the regard to the protection of bioactivity of oils from the undesirable condition, controlled release and marketability of product, loading the oils in alginate bead is a suitable way for application of black seed and linseed oil in food products.
 

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Aiming to improve nutritional value (reduce sugar), bioactive compounds stability, producing of novel products and based on up-to-date knowledge (applying the encapsulation technology) & reducing of potential pomace in the agricultural part (like green tea & green coffee), a functional beverage based on Stevia sweetener was enriched by adding 84 g/L of cross-linked bioactive compounds of green tea and green coffee in chitosome microcapsule and physicochemical properties (pH, acidity, turbidity, total phenolic compounds & antioxidant power) and organoleptic characteristics (flavor, color, aroma, mouth feel and overall acceptance) of product were evaluated during storage time (1, 9, 18, 27, 36 & 45 days) and at different temperatures (5, 25 & 45^oC). While the release rate of beverage phenolic compounds at temperature of 45^oC, were significantly (p<0.05) increased to ~50% after 27 days of storage, the noted parameters increased at the rates of ~36 and ~46% at 5 and 25^oC respectively at the same conditions. As well, the results show that, the parameter of beverage antioxidant productivity ratio (TPC/EC₅₀) was obtained 0.06 and 5.71 in control and enriched samples, respectively after 27 days of storage (at 25^oC). Generally, the chitosomal structure due to biodegradability, biocompatibility and non-toxicity is recommended as a suitable option for stability of bioactive compounds and design of effective systems for drug delivery.
 
 

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In this study, the effect of nanoparticles on oxide at three levels of 1, 3 and 5% was added to polylactic acid and chitosan nanocomposites and the results of its SEM (electron microscope) evaluation were evaluated and showed films containing polylactic acid and chitosan. It had an irregular and compact structure and with the addition of nanoparticles on oxide, it had a regular and cohesive structure. And water vapor permeability showed a significant effect (P <0.05). The results of histometry showed that with increasing the concentration of nanoparticles, the tensile strength of the film and the nanocomposite coating was significantly lower than the control treatment (P <0.05). Also, large changes in length to break point did not show a statistically significant difference. The results of tissue stiffness of this study also showed that during the 15-day storage time, the test treatment had the highest amount of stiffness. The effect of film and coating of nanocomposites based on polylactic acid and chitosan containing nanoparticles on zinc oxide on microbial properties indicated that during the shelf life of bread containing polylactic acid and chitosan dimers has an inhibitory effect on fungal growth by increasing nanoparticles on zinc oxide. Increases significantly. It also showed that the shelf life of seven sliced ​​toast containing the mentioned variables was higher at 5% level compared to the control treatment.
 

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This study aimed to optimize the formulation of chitosan-caffeic acid nanogel containing Shirazi thyme (Zataria multiflora) essential oil (ZEO) and nisin. The independent variables (the concentration of chitosan nanogel, Shirazi-thyme, and nisin) were optimized based on the highest zeta potential and encapsulation efficiency, besides the lowest particle size and IC₅₀(DPPH) values. The results of The Box-Behnken experimental design and Stepwise-response surface model showed the optimal nanogel formulation was as follows: chitosan concentration= 0.4 g; ZEO= 157.1 ppm and nisin= 10.1 ppm. The particle size, zeta-potential, antioxidant activity, and encapsulation efficiency of the optimal chitosan-ZEO-nisin nanogel were 411.39±18.11 nm, 32.90±1.10 mV, 0.79±0.06 mg.mL^-1, 71.06-82.69% respectively. Moreover, the addition of optimized nanogel to the Iranian white cheese formulation showed that the treated cheese samples with ZEO and nisin (free or encapsulated in chitosan nanogel) improved the microbial quality of chess. The antimicrobial activity of the ZEO and nisin encapsulated in chitosan-caffeic acid nanogel was higher than a free form of ZEO-nisin. The Coliforms population of cheeses treated with sodium nitrate and chitosan nanogel containing ZEO-nisin was acceptable during 60 days of storage. During the storage period, the most changes in the color and texture (hardness) of the cheese samples were related to the control sample, and the least change was obtained for samples treated with sodium-nitrate and chitosan nanogel (P < 0.05). Also, the sensory quality of the sample containing ZEO and nisin was acceptable for the sensory evaluator. The sample containing chitosan nanogel received an acceptable sensory score (> 3) during 60 days of storage. In general, the potential of the nanogel in increasing the shelf-life of Iranian white cheese was comparable with sodium nitrate. 
 

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Poultry should be stored in appropriate conditions to prevent its fast spoilage. Using ‎antimicrobial coatings is considered as one of the ‎methods to preserve‎ this product. In this study, ‎‎Chitosan and Chitosan-Nisin coatings were examined under refrigerated‎ conditions at a temperature of 4°C. The ‎samples were packed in ‎ uncoated as the control, ‎Chitosan coating, and Chitosan-Nisin coating groups. The chicken fillets were tested for microbial (total ‎bacterial count, Salmonella count, and staphylococcus aureus coagulase) and ‎physicochemical (pH, color, and texture) features on the first, third, fifth, and ‎seventh days of storage. Based on the results, the ‎Chitosan coating increased the shelf life of fresh chicken under refrigerated conditions by three-days, which demonstrated‎ an inhibitory effect on the overall bacterial growth until the ‎third day. Finally, Chitosan coating demonstrated an antibacterial effect on the Salmonella and positive ‎staphylococcus aureus coagulase until the fifth day. The samples with‎ Chitosan-Nisin were found to be more effective than the Chitosan ‎coated samples. In addition, the‎ Chitosan-Nisin coated samples‎ prevented the growth of total bacteria including‎ Salmonella, ‎and‎ positive staphylococcus‏ ‏aureus coagulase. Further, it increased the shelf life of fresh ‎chicken under refrigerated conditions at the temperature of 4 °C for seven days.
 

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:. In this study, the effect of pH, acidity, moisture content, reheating time, reheating drop as well as sensory evaluation at different thicknesses of chicken pieces (1.5, 2 and 2.5 cm) and different reheating temperatures (150 and 230 ° C) in chicken feed The kebab was examined. The results showed that with increasing the thickness of the chicken pieces and increasing the reheating temperature from 150 to 230 ° C, the reheating time increased but its value did not exceed the standard range (2 hours) and its maximum value was 2.5 cm thick and the temperature 150 ° C was observed for 18.58 minutes. Also, with increasing the thickness of chicken pieces and increasing the reheating temperature to 230 ° C, due to the decrease in surface moisture and dryness, the taste characteristics were more damaged and less acceptable in terms of taste, and  when chicken pieces were 1.5 cm at 150 ° C reheating had the highest quality in sensory evaluation with a score of 8.38. With increasing the thickness of chicken pieces and increasing the reheating temperature, the pH increased and the highest value was observed at 2.5 cm thickness and 230 ° C. In contrast, the acidity was decreased and the lowest was observed at a thickness of 2.5 cm at 230 ° C at 1.51. It should be noted that the moisture content of chicken parts with increasing thickness (2.5) and increasing the temperature to 230 degrees tended to the highest value of 38.04% and the lowest moisture content at 150 ° C was 34.36%. The results also showed that with increasing the thickness of chicken pieces, the heat loss decreased and this factor tended to the highest value of 0.968 at 150 ° C.

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Nowadays, due to the interest in consuming extra-beneficial foods and the increasing spread of cardiovascular diseases, the desire to consume extra-beneficial products has increased. Therefore, researchers are looking for the optimization of new formulations of products with practical features in this direction. The study aimed to produce a functional energy drink containing tannin-linoleic acid-conjugated chitosome. After extracting bioactive compounds (especially tannin) from pomegranate peel, they were included in the structure of chitosomes along with conjugated linoleic acid. The results showed the significant effect of different concentrations of pomegranate biological extract on the oxidative stability of linoleic acid. The results showed the significant effect of different concentrations of pomegranate biological extract on the oxidative stability of linoleic acid. The examination of nano-chitosome groups showed the presence of structures in pomegranate bioactive along with linoleic acid in chitosomes. The uniformly chitosan spherical particles were observed with sizes of 77.66 and 79.90 nm. The addition of nano chitosomes showed a significant increase in pH (decrease in acidity), increase in turbidity, viscosity, two phases, and phenolic content. Also, a decrease in the L* value and an increase in a* and b* values were reported. The present results showed that biopolymers play a key role in the stability of the liposome membrane structure. They have a stable release of molecules trapped by a spatial barrier on the surface. This nano chitosome will provide a potential platform for the carrier's design for nutrients or preservatives, to increase the shelf life and safety of food matrices.