The purpose of this work was to optimize the formulation of a prebiotic dairy dessert with low fat content (<0.1g/100g) using a mixture of short- and long-chain inulin. Response surface methodology was applied to obtain the experimental design and data analysis. Nineteen formulations of dairy dessert were prepared, varying inulin concentration (3 to 9 g/100g), sucrose concentration (4 to 16 g/100g), and lemon flavor concentration (25 to 225 mg/kg). Sample acceptability evaluated by 100 consumers varied mainly in terms of inulin and sucrose concentrations and, to a lesser extent, of lemon flavor content. An interaction effect among inulin and sucrose concentration was also found. According to the model obtained, the formulation with 5.5 g/100g inulin, 10 g/100g sucrose and 60 mg/kg of lemon flavor was selected. Finally, this sample was compared sensorially with the regular fat content (2.8 g/100g) sample previously optimized in terms of lemon flavor (146 mg/kg) and sucrose (11.4 g/100g). No significant difference in acceptability was found between them but the low-fat sample with inulin possessed stronger lemon flavor and greater thickness and creaminess.
The industrial by-product of blueberry juice, a source of fibre with antioxidant capacity was used to develop cookies. Dnce dried and ground the blueberries by-product, its composition and functional properties were analyzed and used to develop fibre enriched cookies. A central composite design was used to optimize the cookie formulation maximizing antioxidant and total polyphenol content varying fibre content (3-9 g/100 g), baking temperature (160-180 °C) and dough thickness (0.5-1.0 cm). Antioxidant capacity and total polyphenol content showed both a similar behaviour, increasing when fibre content increases. The increasing of dough thickness and baking temperature decreases the antioxidant capacity and total polyphenol content. Cookie with 9% fibre, 180 °C baking temperature and 0.50 cm dough thickness and cookie with 9% of fibre, 170°C baking temperature and 0.75 cm dough thickness showed maximum antioxidant capacity and polyphenol content with no significant differences between them; both cookies can be labelled using a fibre claim.
Dry coffee pulp obtained from the residue of the wet processing of Coffea arabica was used as a source of antioxidant dietary fibre to develop "high in fibre" salty cookies. Total phenolic content and antioxidant capacity (ABTS and ORAC) were quantified in cookies and physiological extracts from an in vitro digestion. Enriched cookies' phenolic content (94.42 ± 1.00 mg GAE/30g) and ABTS antioxidant capacity (1168.58 ± 23.50 µmol TE/30g) were found to be significantly higher than those of control cookies, ORAC antioxidant capacity remained similar. Physiological extracts after in vitro digestion showed higher values of total phenolic content (191.53 ± 9.29 mg GAE/30g) and antioxidant capacity (5617.49 ± 211.87 µmol TE/portion in ABTS and 3362.60 ±262.58 µmol TE/portion in ORAC), which were also superior to the antioxidant characteristics of the physiological extracts of control cookies. Cookies were evaluated by consumers who rated the degree of liking on tasting the samples under blind and informed conditions. Results indicated that label had effect on consumers' hedonic perception. Formulation of cookies with dry coffee pulp was successful; an acceptable product with functional properties was obtained.
Traditionally, plant breeding goals have focused on increasing yield, product firmness, shelf life and pest tolerance, combining ambient adaptation and agronomic management, without making focus on the sensory characteristics. The addition of sensory information into plant breeding programs provides breeders with unbiased tools to measure otherwise subjective quality traits. Combining consumer preferences with descriptive information about the sensory characteristics of products can contribute to the development of consumer-driven improvements in diverse agronomical commodities. In this context, the objective of this review is to describe a series of successful experiences where sensory evaluation has contributed to breeding programs in order to develop cultivars with enhanced sensory characteristics and higher likelihood of succeeding in the marketplace. The application of analytic and hedonic tests are described and discussed. A special consideration is made into fruit and vegetables examples, with focus on strawberry and sweet potato, considering the relevance of consumer acceptance in rising consumption of these products. Rice is also showed as an example of a cereal widely consumed worldwide and where cooking methods display a special challenge in sensory evaluation.
The aim of this work was to extract soluble dietary fibre from orange by-product, by testing four different green (non-contaminant, solvent free) extraction technologies: hot water (HW), extrusion + hot water (EHW), jet cooker (JC) and jet cooker + hot water (JCHW). Starting from orange pomace, the treatments were assayed and sample was separated in soluble and insoluble fractions. The processing and analysis of the soluble fraction was continued, through subsequent spray drying until obtaining a soluble fibre-enriched powder. Powders were analysed: dietary fibre, sugar profile and bioactive characterisation (total polyphenol content, antioxidant capacity). Through the application of these green technologies, it was possible to obtain a functional ingredient with soluble dietary fibre from orange by-product. EHW was the treatment that yielded the highest amount of soluble dietary fibre, the lowest content of glucose, sucrose and fructose, and the highest polyphenol content and antioxidant capacity.
A by-product of blueberry juice industries was used as an ingredient to develop fiber-enriched cookies. The blueberry pomace, once ground and dried, was used as an ingredient in cookie formulation. A control cookie was elaborated as reference. Cookies were analyzed for composition and functional properties. The fiber content obtained in the fiber-enriched cookie allows it to be labeled as "high fiber" in the European Union and as a "source of fiber" in MERCOSUR. The fiber-enriched cookie presented highly increased values on the antioxidant capacity and the polyphenol content when compared against the control cookie. Sensory evaluation was performed. Acceptability of the fiber-enriched cookie reached a value of 5.3 in a nine-point hedonic scale. Further strategies should be necessary in order to achieve an acceptable product. Cookies were subjected to an in vitro digestive process. Results show that the cookies' phytochemicals are bioaccessible and potentially bioavailable. Therefore, eating this type of food would represent an increase in the amount of antioxidants ingested and redound to a health benefit. In addition to improving both nutritional and functional properties of cookies, the present development represents an innovative strategy for a more sustainable growth of fruit juice industries.
The aim of this work was to obtain, by water extraction, antioxidant dietary fiber from orange juice byproducts. Extractions were performed to orange pomace powder (OPP) varying temperature (55, 65, 75°C) and time (30, 45, 60 min). Two fractions (sediment and supernatant) were obtained from the water extractions and extractable polyphenolic content, antioxidant capacity, total carotenoid content (TCC), and bioaccessibility were determined. Results showed that at 75°C and 45 min the best combination of antioxidant capacity for both fractions is obtained. Under this condition, the sediment is a potential source of antioxidant dietary fiber. Supernatant is rich in bioaccessible polyphenols, associated to soluble fiber as majority component of dietary fiber. Moreover, the water extraction increased the bioaccessibility of polyphenols and carotenoids contained in the OPP. Therefore, both fractions are a potential source of functional food ingredients and orange juice byproducts were entirely revalued. Practical applications The present study suggests an extraction method for orange juice byproducts. Following the principles of green extraction, the technique proposed consists of a water extraction (free of solvents), does not produce waste and is of easy industrial application. As a result, two potential food ingredients with different functional and technological properties are obtained. Therefore, orange juice byproducts are completely revalued and a solution for the management of these byproducts is presented. In addition, the two functional ingredients obtained in this study are a step in the right direction for the development of new functional food formulations.
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