The aim of the study was to obtain and describe crispy snacks purely made of cheese (also referred to as ‘pure’ cheese snacks) using microwave vacuum drying technology. An acid‐set ripened cheese (Harzer cheese) was tested as the raw material. Cutting, hot air drying and microwave vacuum drying were applied in the technology process. This paper investigates the impact of these processes on the physical properties of the puffs; it also includes sensory evaluation of the resulting product. The cheese pieces expanded by ca. 1000% of their original size with a sharp decrease in the bulk density of the puffed samples. Water activity, hardness and brittleness of the cheese puffs were 0.35, 1511.17 g and 3.20 mm, respectively. The CIE LAB coordinates (in spin position), L*, a* and b*, were 82.81, 1.51 and 20.54, respectively. This paper shows that a new form of dairy product can be produced using microwave technology.
Changes in the biophysical traits of the pectoral muscles of chickens with deep pectoral myopathy (DPM) were analysed with selected instrumental techniques. For comparative purposes, the research used both samples of pectoralis minor muscles of 39-42-day-old Cobb 500 broiler chickens and pectoralis major muscles with DPM symptoms, as well. Computer Image Analysis (CIA) revealed that the pectoral minor muscles with DPM were characterised by smaller area of muscle fibres' cross-sectional area (CSA) than normal muscles. A longitudinal section of DPM muscles also confirmed the presence of large spaces between the bundles of muscle fibres. The results of Differential Scanning Calorimetry (DSC) analysis showed that all the temperatures of transformations referring to minor muscles with myopathy symptoms were significantly lower than the temperatures noted in the muscles without DPM. The enthalpy values observed in both pectoral muscles with DPM were significantly lower than the values noted in healthy muscles. The water dynamics analysed by low-field NMR showed that the values of spin-lattice relaxation time T 1 in p. major muscles without DPM were higher than the values in the muscles with the defect. On the other hand, an inverse dependence was observed in p. minor muscles samples. The value of the long relaxation time T 22 was reduced in both muscles with pathological lesions. In conclusion, three advanced analytical tools used in this study (CIA, DSC, and LF NMR) provide new insight into the characterization of protein changes observed in the pectoral muscles of chicken broilers with DPM.
The aim of this study was to determine the impact of microparticulated whey protein (MPWP), used as a fat replacer, on the physicochemical and sensory properties of reduced fat, washed curd, cheese and cheese puffs obtained by vacuum microwave drying (VMD). The physicochemical characteristics of finely ground cheese puffs were also evaluated. Reduced‐fat cheese with MPWP addition did not affect most of the characteristics of the cheese and ground puffs. However, its influence on the characteristics of puffs was noted. Reduced‐fat cheese without MPWP has proven to be the best raw material to produce microwave vacuum‐dried puffs. Finally, this research suggests that vacuum microwave drying can be a promising solution for production of cheese puffs and that finely ground puffs can also be used as potential ingredients in food formulations.
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