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The present study was to evaluate the effect of dietary yeast cell wall (Saccharomyces cerevisiae) and cinnamon essential oil (Cinnamomum verum) supplementation on growth indices, serum biochemical parameters and immunity of rainbow trout (Oncorhynchus mykiss) fingerlings. Using a 2×2 factorial experiment, 276 fingerlings (9.67 ± 1.20 g) were fed four different experimental diets (including control diet, diet supplemented with 1.5 % yeast cell wall or 1 % cinnamon essential oil and a diet containing 1.5 % yeast cell wall and 1 % cinnamon essential oil) for a 60-day period. At the end of the trial, specific growth rate and weight gain significantly decreased in fish fed diet supplemented with 1% cinnamon essential oil (P≤0.05), however, feed conversion ratio was not statistically differed amongst treatments (P>0.05). Fish fed diets containing 1% cinnamon essential oil had the highest hepatosomatic index (P≤0.05). The highest red blood cell count and blood hemoglobin content belonged to group fed diet containing 1% cinnamon essential oil (P≤0.05). Simultaneous feeding with yeast cell wall and cinnamon essential oil significantly resulted in higher hematocrit value. Serum alkaline phosphatase activity was significantly increased in group fed diet containing 1.5% yeast cell wall. Dietary cinnamon essential oil supplementation also resulted in lower alkaline phosphatase, aspartate aminotransferase and gamma glutamyltransferase activity of serum (P≤0.05). The highest serum total protein and globulin content and lysozyme activity were observed in fish fed diet only supplemented with yeast cell wall (P≤0.05). In conclusion, dietary cinnamon essential oil and yeast cell wall inclusion resulted in improved immunity of rainbow trout fingerlings.

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Nowadays, cinnamon essential oil has been considered as an antioxidant and antimicrobial activity for addition to food and biological systems. Directly use of these essential oil for food storage has some limitations due to low solubility in water, high vapor pressure and physical and chemical instability. One of the ways to reduce these limitations is the microencapsulation of essential oils in lipid carriers, including microcapsules. Therefore, the aim of this work was to study the encapsulation of cinnamon essential oil in microcapsules stabilized with sodium caseinate and β-cyclodextrin and also the antimicrobial and antioxidant properties. In this study, in order to encapsulation, different formulations of nano emulsions containing cinnamon essential oil were prepared by ultrasound method and the effect of different polymers on droplet size, encapsulation efficiency, antioxidant properties and turbidity of nano emulsion were investigated. The results showed that the interaction of nano emulsions and encapsulated samples was effective on particle size (p <0.05). The diameters of sodium caseinate with β -cyclodextrin particles size ranged from 234 to 237 nm. Also, the diameter of the β -cyclodextrin particles in the range of 713-717 nm, and the diameter of the essential oil particles size in the range of 84-85 nm. Zeta potential was negative for sodium caseinate with β -cyclodextrin and essential oil. That showed the system had a significant negative charge. The effect of different polymers and essential oil on the encapsulation efficiency and antioxidant properties was significantly different. (P <0.05). The encapsulation efficiency of all formulations was above 70%. SEM-scanning showed homogeneous and spherical shapes with pores. FT-IR analysis confirmed the effect of van der waals forces in the formation of microcapsules.
 

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The importance of functional foods, Except for their nutritional role, is due to providing physiological benefits or reducing the risk of chronic diseases. Cake is a popular product among consumer meals. Therefore, reducing the amount of sucrose in the cake by making it functional with citrus fiber and essential oils is an effective step in the grain industry. The breakfast cakes containing isomalt, orange fiber and cinnamon essential oil were prepared in 8 groups. The physicochemical, color and sensory properties of breakfast cakes were investigated. The results showed that the pH of the prepared cakes was not significantly different from the control group (p>0.05). While the variables of orange fiber, isomalt, and cinnamon essential oil were effective in maintaining the moisture content of cakes (p<0.05). As expected, the fiber content of breakfast cakes increased with the addition of orange fiber (p<0.05). The fat and protein content of the treatments was lower than the control sample. The protein of the treatments did not have a significant difference(p>0.05); however, they showed a significant difference with the control treatment(p<0.05), but their ash was significantly higher than these groups (p<0.05). A significant decrease in sucrose content was reported by replacing part of it by isomalt (p<0.05). Improvement in baking volume and weight loss of breakfast cakes containing orange fiber, isomalt, and cinnamon essence was also reported (p<0.05). Examining the color index of breakfast cakes showed an increase in the L* and b* values while the a* value decreased (p<0.05). Sensory evaluation showed an increase in the acceptability of cakes containing orange fiber, isomalt, and cinnamon essential oil compared to the control sample. Considering the total results, the breakfast cake containing 2% orange fiber, 2% isomalt, and 0.1% cinnamon essence was introduced as the best treatment in this research.