RESUMEN
Extruded cereal snacks are usually deficient in protein, mineral ingredients, valuable fatty acids. With the rise of health awareness among consumers, food manufacturers and scientists are pressed to take measures in order to develop new functional/health-beneficial foods. The aim of this work was to manufacture extruded crisps enriched with α-linolenic acid (obtained from linseed oil) and to observe whether storage of the product for the period of 6 months would cause its disqualification, primarily due to its sensory properties and secondarily due to its chemical properties. The research demonstrated that the addition of linseed oil to corn crisps at the amount of 5 % enables to obtain functional corn crisps containing over 2 g of ALA in a portion of 100 g even after 6 months of storage at room temperature. ALA-enriched crisps maintain the original sensory profile after 6 months of storage and their sensory profile is similar to the profile of crisps without the addition of linseed oil if they are packed in barrier packaging filled 100 % with argon. Therefore, they may be a healthier alternative to typical corn crisps.
RESUMEN
BACKGROUND: The research aimed to assess the nutritional value of raw pork meat obtained from pigs on the feed containing different types of used fat. METHODS: Meat was obtained from pigs fed in 4 experimental groups, from which groups A and B were given the mixture of rapeseed oil and linseed oil in the ratio of 1:2.5 or 2.3:1:0.2 (lard) as the source of fat. In group C, animals were given the mixture of rapeseed oil (1 part), fish oil (cod-liver oil; 2 parts) and lard (0.5 part), whereas group D obtained the mixture of linseed oil in the same ratio as in group B (2.5 parts), but combined with cod-liver oil (1 part). Meat collected for the research was evaluated and underwent chemical analyses in order to determine its nutritional value. The contents of moisture, protein, fat and ash were determined according to the AOAC methods. The carbohydrate content in various samples was determined by subtracting the sum of moisture, protein, ash and fat content from 100. Energy value (EV) was calculated using Atwater factors. The fatty acids content were analysed in homogenized samples using Folch method. Methyl esters of fatty acids were separated by gas chromatography on GC Trace Ultra THERMO company equipped with a RT 2560 RESTEC capillary column (100 m × 0.25 mm × 0.2 µm) with helium as a carrier gas. Result. The modification of the source of fat in pigs feed did not influence the content of protein and total minerals (ash), whereas it significantly influenced the content of fat and moisture. It has been stated that the use of different fat type in pigs feed, contributed to receiving the meat with modified profile of fatty acids. Higher fatty acids of the n-3 was observed in groups B and D (treated with the mixture of oils with a predominance of linseed oil). The fat from the meat of these groups contain less of n-6 and n-9 fatty acid, which improved the quality indicator of the fat expressed as the ratio of n-6 / n-3. Meat obtained from animals of the groups contained significantly less MUFA, and comparable content UFA and SFA. The meat from all experimental groups the ratio of polyunsaturated fatty acids (PUFA), saturated fatty acids (SFA) remained at a similar level and was 0.5:0.6. Conclusions. The modification of the source of fat in pigs feed did not influence the content of protein and total minerals (ash), whereas it significantly influenced the content of fat and moisture. A different source of fat in pigs feed did not influence the content of fat, saturated fatty acids (SFA) and UFA (unsatur. RESULTS: nd. The research aimed to assess the nutritional value of raw pork meat obtained from pigs on the feed containing different types of used fat. Material and methods. Meat was obtained from pigs fed in 4 experimental groups, from which groups A and B were given the mixture of rapeseed oil and linseed oil in the ratio of 1:2.5 or 2.3:1:0.2 (lard) as the source of fat. In group C, animals were given the mixture of rapeseed oil (1 part), fish oil (cod-liver oil; 2 parts) and lard (0.5 part), whereas group D obtained the mixture of linseed oil in the same ratio as in group B (2.5 parts), but combined with cod-liver oil (1 part). Meat collected for the research was evaluated and underwent chemical analyses in order to determine its nutritional value. The contents of moisture, protein, fat and ash were determined according to the AOAC methods. The carbohydrate content in various samples was determined by subtracting the sum of moisture, protein, ash and fat content from 100. Energy value (EV) was calculated using Atwater factors. The fatty acids content were analysed in homogenized samples using Folch method. Methyl esters of fatty acids were separated by gas chromatography on GC Trace Ultra THERMO company equipped with a RT 2560 RESTEC capillary column (100 m × 0.25 mm × 0.2 µm) with helium as a carrier gas. Result. The modification of the source of fat in pigs feed did not influence the content of protein and total minerals (ash), whereas it significantly influenced the content of fat and moisture. It has been stated that the use of different fat type in pigs feed, contributed to receiving the meat with modified profile of fatty acids. Higher fatty acids of the n-3 was observed in groups B and D (treated with the mixture of oils with a predominance of linseed oil). The fat from the meat of these groups contain less of n-6 and n-9 fatty acid, which improved the quality indicator of the fat expressed as the ratio of n-6 / n-3. Meat obtained from animals of the groups contained significantly less MUFA, and comparable content UFA and SFA. The meat from all experimental groups the ratio of polyunsaturated fatty acids (PUFA), saturated fatty acids (SFA) remained at a similar level and was 0.5:0.6. CONCLUSIONS: The modification of the source of fat in pigs feed did not influence the content of protein and total minerals (ash), whereas it significantly influenced the content of fat and moisture. A different source of fat in pigs feed did not influence the content of fat, saturated fatty acids (SFA) and UFA (unsaturated fatty acids) in fat, whereas it significantly influenced the participation of particular fatty acids belonging to monounsaturated (MUFA) and n-3 and n-6 groups.