yasamin soleimanian

Every year, agrifood activities generate a large amount of plant byproducts, which have a low economical value. However, the valorization of these byproducts can contribute to increasing the intake of dietary fibers and reducing the environmental pollution. This review presents an overview of a wide variety of agricultural wastes applied in the formulation of different food products and sustainable packaging. In general, the incorporation of fibers into bakery, meat, and dairy products was successful, especially at a level of 10% or less. Fibers from a variety of crops improved the consistency, texture, and stability of sauce formulations without affecting sensory quality. In addition, fiber fortification (0.01-6.4%) presented considerable advantages in terms of rheology, texture, melting behavior, and fat replacement of ice cream, but in some cases had a negative impact on color and mouthfeel. In the case of beverages, promising effects on texture, viscosity, stability, and appetite control were obtained by the addition of soluble dietary fibers from grains and fruits with small particle size. Biocomposites used in packaging benefited from reinforcing effects of various plant fiber sources, but the extent of modification depended on the matrix type, fiber pretreatment, and concentration. The information synthesized in this contribution can be used as a tool to screen and select the most promising fiber source, fiber concentration, and pretreatment for specific food applications and sustainable packaging.

The development of lipid-based delivery systems has attracted much attention over the last years and a wide variety of strategies and formulations are currently available to encapsulate, protect, and target delivery of bioactive and functional lipophilic constituents within the food and pharmaceutical industries. Waxes are crystalline lipid material, consisting of a complex mixture of long-chain fatty acids and fatty alcohols, hydrocarbons, aldehydes, and ketones and show great promises as constituents of carrier systems. Most of waxes are classified under food-grade category and show high availability at a low cost. This review article has provided a comprehensive summary of research on major carriers containing wax as one of the main constituents, including solid lipid nanoparticles, nanostructured lipid carriers, oleogels, and Pickering emulsions, with a focus on their food applications. The physical and chemical nature of natural waxes are described in the first while the second part deals with the structure, formulation, main methods of preparation, characterization, and finally utilization of each type of wax-based delivery system for specific food applications.

The objective of the present study was to explore the potential of nanostructured lipid carriers (NLCs) for improving the oral delivery of β-sitosterol, a poorly water-soluble bioactive component with hypocholesterolemic activity. Two β-sitosterol formulations with different solid lipid compositions were prepared by melt emulsification, followed by the sonication technique, and the effect of storage conditions and simulated digestion on the physical, chemical and oxidative stability, bioaccessibility and release were extensively studied. Both NLC preparations remained relatively stable during the four weeks of storage at different conditions (4, 25 and 40 °C), with more superior stability at lower temperatures. The in vitro digestion experiment indicated a high physical stability after exposure to the simulated mouth and stomach stages and an improved overall β-sitosterol bioaccessibility at the end of the digestion. The NLCs presented an increased solubility and gradual release whi...

Purpose – The purpose of this study was to investigate the efficiency of low temperature fractional crystallization to increase polyunsaturated fatty acid (PUFA) content of fish oil. Effects of temperature, stages of crystallization, rate of cooling, agitation and addition of primary nucleus on separation efficiency were evaluated. Low temperature crystallization of triacylglycerols (TAGs) was used to increase PUFA content of fish oil (initial PUFA content ∼30 g/100 g oil). Design/methodology/approach – To optimize the fractionation process, the effect of fractionation temperature (7, 5, 0 and −5°C), crystallization procedures, cooling rate, agitation and addition of primary nucleus on PUFA content was evaluated. Findings – The best relationship between PUFA concentration (45.8 g/100 g oil) and PUFA yield (51.5 per cent) was attained by performing two-stage crystallization of TAGs at the final temperatures of 5 and 0°C under slow cooling rate (3°C h−1 for first fractionation procedu...

Summary In the current study, the effect of frozen storage at −18°C was evaluated on fatty acid composition of different body parts (liver, muscle tissue, and viscera) of narrow-barred Spanish mackerel (Scomberomorus commerson, Lacepede, 1800), longtail tuna (Thunnus tonggol, Bleeker, 1851), kawakawa (Euthynnus affinis, Cantor, 1849), king mackerel (Scomberomorus guttatus, Bloch & Schneider, 1801), and rainbow sardine (Dussumieria acuta, Valenciennes, 1847) caught in the Persian Gulf. Changes in saturated fatty acids (SFAs), monounsaturated fatty acids (MUFAs), polyunsaturated fatty acids (PUFAs), eicosapentaenoic acid plus docosahexaenoic acid/palmitic acid (EPA+DHA/C16), ω3 PUFA/ω6 PUFA (ω3/ω6), and polyunsaturated fatty acids/saturated fatty acids (PUFA/SFA) were investigated during a 6-month period. A decrease in unsaturated fatty acids, particularly PUFAs (60–100%) as well as ω3/ω6, EPA+DHA/C16 (polyene index) and PUFA/SFA ratios, indicated a decrease in the nutritional values of the samples.

ABSTRACT For application of n-3 fatty acids, distribution of the fatty acid compositions of different parts of (head, tail, fins and skin = HTFS, liver, viscera and muscle tissue) five commercially important fish species from the Persian Gulf (Scomberomorus commersoni, Thunnus tonggol, Euthynnus affinis, Scomberomorus guttatus and Dussumieria acuta) as good sources of n-3 PUFA were studied. The richest source of n-3 were HTFS in S. guttatus and S. commersoni, liver in S. guttatus, total body of D. acuta, liver of E. affinis and T. tonggol, followed by viscera of E. affinis. The content of these fatty acids were the same in viscera of tonggol, liver of S. commersoni, and HTFS of E. affinis. Moreover, muscle of E. affinis and HTFS of T. tonggol and also muscle of S. guttatus and T. tonggol had the same n-3 contents as the viscera of S. commersoni. So, it was concluded that HTFS and viscera (which are discarded as residues) are as useful as muscle and liver and can be a source of economically available n-3 PUFA. Muscle had the lowest proportion of n-3 in E. affinis, T. tonggol, and S. guttatus in comparison with other organs of these fish species. The highest n-3:n-6 ratio was observed in D. acuta. Finally, the cluster analysis showed that with respect to n-3 and other PUFA contents, HTFS of S. commersoni and D. acuta with S. guttatus on the one hand, and HTFS of T. tonggol and E. affinis on the other hand were similar to each other. In addition, viscera of S. commersoni and S. guttatus were similar followed by T. tonggol and different from E. affinis and D. acuta. In the case of muscle, T. tonggol and S. guttatus had good similarity followed by E. affinis and had no significant similarity with S. commersoni and D. acuta. With regard to liver, the highest similarity was observed between T. tonggol and E. affinis followed by D. acuta and S. guttatus, while S. commersoni did not show similarity with the others.