RESUMO
BACKGROUND: The Cosmos sulphureus Cav. plant is studied for its high polyphenolic content with antioxidant properties. Its flowers, rich in phenolic acids, flavonoids, and tannins, hold promise as antioxidants in food preservation. The inclusion of these compounds in chickpea-based coatings with a previously studied preservative effect would be an excellent option as a food preservation method and microencapsulation addresses challenges like dispersion and degradation of polyphenols in the coating. The objective of this research was to evaluate the in vitro antioxidant activity of Cosmos sulphureus leaves, seed, and flower extracts and explore the protective effects of chickpea-based coatings containing microcapsules of flower polyphenolic extract on the chemical quality of stored roasted sunflower seeds during storage. RESULTS: The ethanolic leaf extract exhibited the highest antiradical activity, followed by the aqueous flower extract. After a storage period of 15 days, at 40 °C, the chickpea-based coatings effectively delayed lipid oxidation in the roasted sunflowers seeds, and the inclusion of polyphenolic microcapsules with 0.01% extract (SMC 0.01%) in the coating significantly improved the protective effect. By day 15 of storage, SMC 0.01% showed comparable peroxide value, conjugated dienes, and linoleic acid content to samples containing the synthetic antioxidant BHT (butylated hydroxytoluene). Samples that only contained chickpea-based coating and coating with polyphenolic microcapsules with 0.005% extract exhibited significantly greater reduction in fatty acid content compared to the 0.01% SMC treatment. CONCLUSION: The chickpea-based coating with polyphenolic microcapsules demonstrated antioxidant activity akin to synthetic BHT, offering a promising biopackaging solution for lipid-rich foods like roasted sunflower seeds. © 2024 Society of Chemical Industry.
RESUMO
The objective of this study was to evaluate the protective effect of a chickpea-based edible coating with the addition of polyphenols on the chemical, microbiological, and sensory quality of roasted sunflower seeds throughout storage. Four different samples were prepared: roasted sunflower seeds (control sample, SF-C), roasted sunflower seeds with BHT (SF-BHT), roasted sunflower seeds with chickpea-based coating (SF-CCs), and roasted sunflower seeds with chickpea-based coating with chickpea polyphenolic extract (SF-CCPE). The samples were stored for 60 days at room temperature, and their chemical, microbiological, and sensory parameters were analyzed. The acceptability of fresh samples was also studied. The use of chickpea-based coatings retarded the lipid oxidation process efficiently, but the inclusion of chickpea polyphenols in the coating enhanced the protective effect. At 60th day of storage, no statistically significant differences were found between SF-CCPE and SF-BHT in relation to peroxides and conjugated dienes values, saturated/unsaturated ratio, and hexanal content. Linoleic acid content was reduced significantly more in SF-CCs than SF-CCPE. The addition of chickpea coating with chickpea antioxidants did not modify the flavor of the sunflower seeds and was the most accepted treatment by the consumer. The formation of undesirable flavors (cardboard and oxidized) was less in SF-CC, SF-CCPE, and SF-BHT without finding significant differences between these treatments. None of the samples presented microbiological contamination or an increase in bacteria, yeast, and molds during storage. The chickpea-based coating was able to retard lipid oxidation in roasted sunflower seeds, proving to be a good alternative as a natural method to preserve foods with high lipid content. PRACTICAL APPLICATION: Discarded chickpeas and chickpea husks constitute byproducts from the chickpea industry. The grain husks are currently discarded or marketed at a very low cost, constituting a novel residue with antioxidant properties. Considering the growing interest in sustainability and the circular economy, this investigation proposes the utilization of nutritional materials to prepare edible coatings. The chickpea-based coatings loaded with polyphenol extract (obtained from the husk of chickpea) demonstrated to have a protective effect against lipid oxidation process in sunflower seeds, which represent a good alternative to be used for the food industry to increase the shelf life of lipid foods.
Assuntos
Cicer , Filmes Comestíveis , Helianthus , Conservação de Alimentos/métodos , Polifenóis , Paladar , Antioxidantes , Sementes , Extratos Vegetais , LipídeosRESUMO
Gluten-free flours based products present technological difficulties in their preparation, the texture is very different in comparison to products that contain gluten and their nutritional quality is often deficient due to the use of starches and refined flours, which provide high energy density and low nutritional value. The aim of this research was to assess the effects of addition both whole and malted quinoa flours on the physical, nutritional and sensory characteristics of gluten-free muffins. Different formulations were assessed: with 100% rice flour and with a 30% replacement for whole or malted quinoa flour. Proximate composition analysis, baking associated weight loss, size, specific volume, crumb structure, texture profile and consumer test sensory analysis were tested on the samples. Quinoa flours produced an increase of between 12% and 18% on protein, 8% to 18% on minerals and 22% to 25% on amino acids, in comparison to samples that contained only rice flour (used as reference). Technological and sensory improvements on the quality of assessed muffins were also associated to quinoa flours addition. 24 hr-malted quinoa flour added muffins had moisture, height, volume and firmness that were close to the reference ones. On all samples, small cells (0.002 to 0.005 cm2 ) were predominant on crumb structure and sensory evaluation resulted on similar outcomes for color and texture. However, the formula with 24 hours-malted quinoa flour had the best scored on taste and smell. PRACTICAL APPLICATIONS: Adding whole or malted quinoa flours to formulations of gluten-free products improves their nutritional and technological characteristics. These new products not only widen food variety for people with celiac disease but also increase the added value of quinoa grains, which motivates its production and industrialization.