Tilapia, salmon, tuna and sardine meals were prepared to develop and analyze extruded snacks with residue meal from fish processing. Residue meals were included in five types of corn snacks: control (0% fish meal) and four with 9% tilapia, salmon, tuna and sardine meals. Although moisture, lipids and carbohydrates rates did not differ among the snacks, protein rates increased with the increment of fish meal, reaching 11.85% in the tuna snack. Tuna and sardine snacks had the highest iron levels. The most abundant fatty acids were linoleic, oleic, palmitic, linolenic and stearic acids, with sardine, salmon and tuna snacks presenting the highest values of n-3 series fatty acids. Greater luminosity rate was reported for salmon snack, followed by tilapia, tuna and sardine snacks. The highest sensory acceptance index was verified in tilapia (78.07%) and salmon (72.40%). A 9% addition of residue meals of tilapia, salmon and tuna improved the nutritional value of the snacks.
This study aimed to develop extruded snacks including flour obtained from Nile tilápia carcasses, and then evaluate the chemical composition, colorimetry, thiobarbituric acid reactive substances, and microbiology. There was a significant increase in the levels of crude protein, ether extract, ash, and minerals, as well as a reduction in carbohydrates as more flour was included in the snacks. Increased levels of flavored flour caused reduction in the brightness of snacks. Oxidative rancidity was not detected in snacks. The inclusion of flour improved the nutritional value of extruded snacks without changing sensory characteristics. Microbiologically, the snacks are suitable for human consumption.
<em>Industries are technologically perfecting their products by adding new components, in order to meet the demands of consumers. The extraction of pulp from several tropical fruits for manufacture of bullets has been widely used, due to its nutritional and functional value. The aim this study was to develop an edible candy with the addition of passion fruit pulp adding nutritional value from natural ingredients. In order to carry out this study, fruits were purchased in the city of Sousa-PB, then sent to fruit processing sector located at IFPB Campus-Sousa, where the weighing process, sanitization in sodium hypochlorite solution was carried out 100ppm for 15 minutes, then the fruits were cut in half. The extraction was done manually, sieved for aryl separation. Soon after they were packed in plastic bags and sealed, a part sent to physicalchemical and microbiological analyzes and another frozen part to be used in elaboration of bullet. In process of bullet preparation (56.25%) of sucrose, (37.5%) glucose syrup and 6.25% of the passion fruit pulp were used. Microbiological and physical-chemical analyzes (moisture, ash, pH, acidity in citric acid, protein, soluble solids, flavonoids) were performed in the pulp and afterwards, hygroscopicity and color were only performed on bullet. According to results obtained, pulp and passion fruit bullet presented physical-chemical and microbiological results as established by legislation. The addition of concentrated passion fruit pulp extract may be an alternative, making a differentiated product with higher added value nutritionally, offering consumers health benefits without addition of dyes and artificial preservatives. </em>
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