Effect of High-Pressure Processing at Elevated Temperatures on Thiamin and Riboflavin in Pork and Model Systems

2007 ◽  
Vol 55 (4) ◽  
pp. 1289-1294 ◽  
Author(s):  
Peter Butz ◽  
Antal Bognar ◽  
Sepp Dieterich ◽  
Bernhard Tauscher
Keyword(s):  
High Pressure ◽  
Elevated Temperatures ◽  
High Pressure Processing ◽  
Model Systems

Inactivation of Hepatitis A Virus by High-Pressure Processing: The Role of Temperature and Pressure Oscillation

2006 ◽  
Vol 69 (10) ◽  
pp. 2454-2459 ◽  
Author(s):  
DAVID H. KINGSLEY ◽  
DONGSHENG GUAN ◽  
DALLAS G. HOOVER ◽  
HAIQIANG CHEN
Keyword(s):  
High Pressure ◽  
Hepatitis A ◽  
Elevated Temperatures ◽  
Treatment Time ◽  
Hepatitis A Virus ◽  
Virus Titer ◽  
Pressure Oscillation ◽  
Weibull Model ◽  
High Pressure Processing ◽  
Pressure Application

Inactivation of hepatitis A virus (HAV) in Dulbecco's modified Eagle medium with 10% fetal bovine serum was studied at pressures of 300, 350, and 400 MPa and initial sample temperatures of −10, 0, 5, 10, 20, 30, 40, and 50°C. Sample temperature during pressure application strongly influenced the efficiency of HAV inactivation. Elevated temperature (>30°C) enhanced pressure inactivation of HAV, while lower temperatures resulted in less inactivation. For example, 1-min treatments of 400 MPa at −10, 20, and 50°C reduced titers of HAV by 1.0, 2.5, and 4.7 log PFU/ml, respectively. Pressure inactivation curves of HAV were obtained at 400 MPa and three temperatures (−10, 20, and 50°C). With increasing treatment time, all three temperatures showed a rapid initial drop in virus titer with a diminishing inactivation rate (or tailing effect). Analysis of inactivation data indicated that the Weibull model more adequately fitted the inactivation curves than the linear model. Oscillatory high-pressure processing for 2, 4, 6, and 8 cycles at 400 MPa and temperatures of 20 and 50°C did not considerably enhance pressure inactivation of HAV as compared with continuous high-pressure application. These results indicate that HAV exhibits, unlike other viruses examined to date, a reduced sensitivity to high pressure observed at cooler treatment temperatures. This work suggested that slightly elevated temperatures are advantageous for pressure inactivation of HAV within foods.

Inactivation of Clostridium botulinum Type A Spores by High-Pressure Processing at Elevated Temperatures

2003 ◽  
Vol 66 (8) ◽  
pp. 1402-1407 ◽  
Author(s):  
N. R. REDDY ◽  
H. M. SOLOMON ◽  
R. C. TETZLOFF ◽  
E. J. RHODEHAMEL
Keyword(s):  
High Pressure ◽  
Phosphate Buffer ◽  
Clostridium Botulinum ◽  
Elevated Temperatures ◽  
Type A ◽  
High Pressure Processing ◽  
Maximum Temperature ◽  
Maximum Pressure ◽  
Botulinum Type ◽  
Pressure Maximum

The effects of high-pressure treatments at various temperature-time combinations on the inactivation of spores of Clostridium botulinum type A strains 62-A and BS-A in phosphate buffer (0.067 M, pH 7.0) and in a crabmeat blend were investigated. The log unit reduction of strain 62-A spores increased significantly as the processing pressure increased from 417 to 827 MPa (from 60,000 to 120,000 lb/in2) at 75°C. The reduction of BS-A and 62-A spores in either medium increased as processing temperatures increased from 60 to 75°C and processing times increased from 5 to 15 or 20 min at a maximum pressure of 827 MPa. Approximately 2- and 3-log reductions of BS-A and 62-A spores, respectively, in phosphate buffer were obtained at the maximum pressure–maximum temperature combination of 827 MPa and 75°C for a processing time of 20 min. Processing for 15 min at the maximum pressure–maximum temperature combination resulted in maximum reductions of 3.2 and 2.7 log units for BS-A and 62-A spores, respectively, in the crabmeat blend. Results obtained in this study indicate that the crabmeat blend did not protect BS-A and 62-A spores against inactivation by high-pressure processing.

Effect of High Pressure Processing on the Shelf Life of Seasoned Squid

2011 ◽  
Vol 40 (8) ◽  
pp. 1136-1140 ◽  
Author(s):  
Jing-Yu Gou ◽  
Yun-Yun Zou ◽  
Geun-Pyo Choi ◽  
Young-Beom Park ◽  
Ju-Hee Ahn
Keyword(s):  
High Pressure ◽  
Shelf Life ◽  
High Pressure Processing

Effect of high pressure processing on migration characteristics of polypropylene used in food contact materials

2021 ◽  
Vol 38 (3) ◽  
pp. 513-531
Author(s):  
Yoon S. Song ◽  
John L. Koontz ◽  
Rima O. Juskelis ◽  
Eduardo Patazca ◽  
William Limm ◽  
...  
Keyword(s):  
High Pressure ◽  
High Pressure Processing ◽  
Contact Materials ◽  
Food Contact Materials ◽  
Food Contact

scholarly journals High Pressure Processing Impact on Alternariol and Aflatoxins of Grape Juice and Fruit Juice-Milk Based Beverages

Molecules ◽  
2021 ◽  
Vol 26 (12) ◽  
pp. 3769
Author(s):  
Noelia Pallarés ◽  
Albert Sebastià ◽  
Vicente Martínez-Lucas ◽  
Mario González-Angulo ◽  
Francisco J. Barba ◽  
...  
Keyword(s):  
High Pressure ◽  
Thermal Treatment ◽  
Orange Juice ◽  
Grape Juice ◽  
Good Alternative ◽  
High Pressure Processing ◽  
Life Extension ◽  
Food Contaminants ◽  
Dispersive Liquid Liquid Microextraction ◽  
Strawberry Juice

High-pressure processing (HPP) has emerged over the last 2 decades as a good alternative to traditional thermal treatment for food safety and shelf-life extension, supplying foods with similar characteristics to those of fresh products. Currently, HPP has also been proposed as a useful tool to reduce food contaminants, such as pesticides and mycotoxins. The aim of the present study is to explore the effect of HPP technology at 600 MPa during 5 min at room temperature on alternariol (AOH) and aflatoxin B1 (AFB1) mycotoxins reduction in different juice models. The effect of HPP has also been compared with a thermal treatment performed at 90 °C during 21 s. For this, different juice models, orange juice/milk beverage, strawberry juice/milk beverage and grape juice, were prepared and spiked individually with AOH and AFB1 at a concentration of 100 µg/L. After HPP and thermal treatments, mycotoxins were extracted from treated samples and controls by dispersive liquid–liquid microextraction (DLLME) and determined by HPLC-MS/MS-IT. The results obtained revealed reduction percentages up to 24% for AFB1 and 37% for AOH. Comparing between different juice models, significant differences were observed for AFB1 residues in orange juice/milk versus strawberry juice/milk beverages after HPP treatment. Moreover, HPP resulted as more effective than thermal treatment, being an effective tool to incorporate to food industry in order to reach mycotoxins reductions.

scholarly journals Impact of Innovative Technologies on the Content of Vitamin C and Its Bioavailability from Processed Fruit and Vegetable Products

Antioxidants ◽  
2021 ◽  
Vol 10 (1) ◽  
pp. 54
Author(s):  
Monika Mieszczakowska-Frąc ◽  
Karolina Celejewska ◽  
Witold Płocharski
Keyword(s):  
High Pressure ◽  
Vitamin C ◽  
Electric Fields ◽  
New Technologies ◽  
High Pressure Processing ◽  
Food Preservation ◽  
Fruit And Vegetable ◽  
Negative Effects ◽  
Minimal Processing ◽  
Processing Technologies

Nowadays, thermal treatments are used for extending the shelf-life of vegetable and fruit products by inactivating microorganisms and enzymes. On the other hand, heat treatments often induce undesirable changes in the quality of the final product, e.g., losses of nutrients, color alterations, changes in flavor, and smell. Therefore, the food industry is opening up to new technologies that are less aggressive than thermal treatment to avoid the negative effects of thermal pasteurization. Non-thermal processing technologies have been developed during the last decades as an alternative to thermal food preservation. Processing changes the structure of fruit and vegetables, and hence the bioavailability of the nutrients contained in them. In this review, special attention has been devoted to the effects of modern technologies of fruit and vegetable processing, such as minimal processing (MPFV), high-pressure processing (HPP), high-pressure homogenization (HPH), ultrasounds (US), pulsed electric fields (PEF), on the stability and bioavailability of vitamin C.

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