Effect of packaging methods and storage conditions on quality characteristics of flour product naan

The effects of chitosan oligosaccharides on the structure and shelf-life of whole-millet cakes

The production of high-quality gluten-free whole-millet cakes presents significant challenges to the food industry. This research examined the impact of chitosan oligosaccharides (COS) on the structural properties and shelf life of whole-millet cakes. Fourier transform infrared spectroscopy and X-ray diffraction analyses revealed that hydrogen bonding between COS and millet starch reduced the relative crystallinity of the cakes. Increased concentrations of COS were associated with a reduction in free water migration within the system, thereby enhancing water retention capacity. A suitable concentration of COS contributed to a more continuous protein network structure, preserving the internal integrity of the cakes. At a COS concentration of 0.8 %, minimal changes were observed in color, hardness, springiness, and moisture loss during storage. Furthermore, the incorporation of COS extended the shelf-life of the cakes by 3-6 days. These findings suggest that COS enhances the quality and storage stability of gluten-free food products.

Effects of steam explosion-modified rice bran dietary fiber on volatile flavor compounds retention and release of red date-flavored naan (ethnic specialty food of Xinjiang) during storage

This study explored the effects of steam explosion-modified rice bran dietary fiber (S-RBDF) on red date-flavored naan quality and flavor characteristics. The results revealed that the rheological properties of the dough were improved with the incremental addition of S-RBDF (0-5%). The microstructure revealed that adding an appropriate amount of S-RBDF (1-5%) enabled more starch granules to be embedded in the dough network. Notably, the addition of 5% S-RBDF resulted in naan with an optimum specific volume and texture, which consumers preferred. Additionally, gas chromatography-mass spectrometry analysis showed that adding S-RBDF to naan contributed to the retention and sustained release of pleasant volatile compounds (e.g. red date flavor, etc.), while inhibiting the development of unpleasant volatile compounds by delaying the oxidation and decomposition of lipids and preserving the antioxidant phenolic compounds, thus contributing to flavor maintenance of naan during storage. Overall, these results provided a foundation for developing high-quality flavored naan.

Effect of packaging material and oxygen concentration on quality of Ghavoot during the storage

Ghavoot is an Iranian traditional food product that prepared by a combination of several types of plant seeds mixed with sugar. The lack of appropriate packaging caused Ghavoot exposed to environment conditions, which leads to oxidation of this product and reduce its nutritional value and marketability. In this study, different types of packaging materials including nylon, the Polyester/ Aluminum/ polyethylene (PET/AL/PE) and the Polyester /Aluminum / Low-Density Polyethylene (PET/AL/LDPE) with different concentrations of oxygen inside the packaging (zero, 5 and 21%) were used to maintain quality properties of Ghavoot. The results showed that samples stored in the PET/Al/LDPE packaging under vacuum, had fewer moisture changes during storage compared with other treatments, as a result, the least changes in the color parameters of Ghavoot occurred. Increasing the concentration of oxygen inside the packaging resulted in higher peroxide, anisidine and totox values as well as the higher total acidity of the Ghavoot's oil. Keeping Ghavoot in the three-layer PET/Al/LDPE pouches under vacuum condition, caused the lipid oxidation to be delayed during the storage. Results of sensory properties showed that increasing the oxygen concentration inside the packaging caused the average score for product flavor to decrease as a result of rancidity development.