Impact of pH and High-Pressure Pasteurization on the Germination and Development of Clostridium perfringens Spores under Hyperbaric Storage versus Refrigeration.

This study aimed to evaluate hyperbaric storage at room temperature (75-200 MPa, 30 days, 18-23 °C, HS/RT) on Clostridium perfringens spores in brain-heart infusion broth (BHI-broth) at pH 4.50, 6.00, and 7.50 and coconut water (pH 5.40). Both matrices were also pasteurized by high pressure processing (600 MPa, 3 min, 17 °C, HPP) to simulate commercial pasteurization followed by HS, in comparison with refrigeration (5 °C, RF). The results showed that, at AP/RT, spores' development occurred, except at pH 4.50 in BHI-broth, while for RF, no changes occurred along storage. Under HS, at pH 4.50, neither spore development nor inactivation occurred, while at pH 6.00/7.50, inactivation occurred (≈2.0 and 1.0 logs at 200 MPa, respectively). Coconut water at AP/RT faced an increase of 1.6 logs of C. perfringens spores after 15 days, while for RF, no spore development occurred, while the inactivation of spores under HS happened (≈3 logs at 200 MPa). HPP prior to HS seems to promote a subsequent inactivation of C. perfringens spores in BHI-broth at pH 4.50, which is less evident for other pHs. For HPP coconut water, the inactivation levels under HS were lower (≈2.0 logs at 200 MPa). The Weibull model well described the inactivation pattern observed. These results suggest that HS/RT can be simultaneously used as a tool to avoid C. perfringens spores' development, as well as for its inactivation, without the application of high temperatures that are required to inactivate these spores.

Fabrication of cumin loaded-chitosan particles: Characterized by molecular, morphological, thermal, antioxidant and anticancer properties as well as its utilization in food system.

The aim of this study was the fabrication of stable encapsulated cumin essential oil using ionic gelation method and its application in mayonnaise as a natural antioxidant. The obtained nanoparticles exhibited a positively charged surface with diameters ranging from 269 to 326 nm. In addition, results from encapsulation efficiency demonstrated that excess concentration of initial essential oil reduced the amount of entrapped essential oil. From the obtained observation, the optimal weight ratio of chitosan to cumin essential oil of 1:0.5 was selected. In vitro release study indicated an initial burst at all different pH, although the most release rate was related to acidic media (pH = 3). Furthermore, an improvement of thermal stability and antioxidant properties was observed. Regarding cytotoxicity results, loaded particles had a good biocompatibility, while there were slight prevention effects on breast and brain tumor at the highest concentration. Finally, the antioxidant properties of fabricated nanoparticles were investigated in mayonnaise. It significantly reduced peroxidase value (POV) and thiobarbituric acid (TBA) values during storage period. Overall, our observations showed the encapsulated cumin essential oil could be used as natural antioxidant.

Effect of Angum gum in combination with tragacanth gum on rheological and sensory properties of ketchup.

The aim of this study was to evaluate the effect of Angum gum (AnG) alone and in combination with tragacanth gum (TG) on the stability, texture, sensory, and rheological properties of tomato ketchup. AnG, TG, and Angum gum and tragacanth gum mixture (AnGT; 1:1 ratio) were added at levels of 0.5, 1, and 1.5%. Ten tomato ketchup formulations were produced: control (without hydrocolloid), AnG (0.5-1.5%), TG (0.5-1.5%), AnGT (0.5-1.5%). It was observed that the hydrocolloids addition to tomato ketchup significantly decreased the Bostwick consistency value and serum separation at 2200, 5000, and 8800 g. Textural properties of tomato ketchup by using back extrusion test and particle size analysis were significantly increased with hydrocolloid addition. All tomato ketchup formulations showed shear thinning behavior and the addition of hydrocolloids increased apparent viscosity. The power law and Herschel-Bulkley models were successfully fitted with experimental data. The flow behavior indices of Herschel-Bulkley and power law models were changed in the range of 0.19-0.24 and 0.14-0.30, respectively. The consistency coefficients of these models were in the range of 16.31-79.57 and 11.19-146.06 Pa sn , respectively. The storage modulus (G') of all tomato ketchups was higher than the loss modulus (G″). Hydrocolloid addition showed no significant effect on the color indices (L*, a*, b*, hue angle, chroma, and total color differences) of tomato ketchup. The overall acceptability of 1.5% AnG, 0.5% TG, 1 and 1.5% AnGT were significantly higher than other samples. Therefore, AnG can be used alone and in combination with TG as stabilizer in tomato ketchup. PRACTICAL APPLICATIONS: The consistency of tomato ketchup is an important attribute from both engineering and consumer viewpoints. It was observed that addition of TG, AnG, and AnGT to tomato ketchups significantly decreased their Bostwick consistency values and their serum separation. In addition, hydrocolloid addition showed no significant effect on the color indices (L*, a*, b*, Hue angle, chroma, and total color differences) of samples. Also, the panelists gave greatest sensory scores in term of overall acceptance to ketchups containing 1% AnGT than other samples.