High Pressure Processing of Foods
Published on 18. October 2007
Book
Hardback
272 pages
978-0-8138-0944-1 (ISBN)
Description
In High Pressure Processing of Foods, an array of international experts interrelate leading scientific advancements that use molecular biology techniques to explore the biochemical mechanisms of spore germination and inactivation by high pressure; investigate the inactivation of different spore species as functions of processing parameters such as pressure, temperature, time, food matrix, and the presence of anti-microbials; propose predictive mathematical models for predicting spore inactivation in foods treated with HPP; address commercial aspects of high pressure processing that include the high pressure equipment and packaging used to achieve the sterilization of bacterial spores in foods; and provide an assessment of the quality of food products preserved by HPP. High Pressure Processing of Foods is the landmark resource on the mechanisms and predictive modeling of bacterial spore inactivation by HPP.
Reviews / Votes
"A good starting point, and central resource, for any research scientist interested in HP sterilisation." Microbiology TodayMore details
Series
Language
English
Place of publication
Hoboken
United Kingdom
Publishing group
John Wiley and Sons Ltd
Target group
Professional and scholarly
Dimensions
Height: 236 mm
Width: 160 mm
Thickness: 21 mm
Weight
626 gr
ISBN-13
978-0-8138-0944-1 (9780813809441)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
New editions
Christopher J. Doona | Florence E. Feeherry
High Pressure Processing of Foods
Book
06/2026
2nd Edition
Wiley
€160.94
Article is exhausted; no reprint
Persons
Christopher J. Doona, PhD,serves as Research Chemist of the U.S. Army - Natick Soldier Research, Development and Engineering Center, DoD Combat Feeding Directorate, Advanced Processes and Packaging Team with responsibilities for independently and in collaboration with other research scientists conducting, executing, and coordinating innovative new areas of basic and applied research with primary benefits to the military. Dr. Doona's award-winning research investigations specialize in novel food processing technologies and innovative disinfectant technologies for the safety and stability of foods. Florence E. Feeherry, MS, serves as Research Microbiologist for the U.S. Army - Natick Soldier Research, Development and Engineering Center, DoD Combat Feeding Directorate, Advanced Processes and Packaging Team with responsibilities for independently, and in collaboration with other researchers, carrying out basic and applied research investigations specializing in the principles of food microbiology to establish the safety of foods processed with novel technologies, such as high pressure, stabilized by formulation or "hurdle technology," or treated with novel disinfectant technologies.
Content
1. Introduction to High Pressure Processing of Foods - Margaret F. Patterson, Mark Linton, and Christopher J. Doona. 2. Germination of Spores of Bacillus subtilis by High Pressure - Peter Setlow.
3. Inactivation of Bacillus cereus by High Hydrostatic Pressure - Murad A. Al-Holy, Mengshi Lin, and Barbara A. Rasco.
4. Inactivation of Bacillus spores at low pH and in milk by high pressure at moderate temperature - Isabelle Van Opstal, Abram Aertsen, and Chris W. Michiels.
5. Pressure and heat resistance of Clostridium botulinum and other endospores - Michael G. Gaenzle, Dirk Margosch, Roman Buckow, Matthias A. Ehrmann, Volker Heinz, and Rudi F. Vogel.
6. The Quasi-chemical and Weibull Distribution Models of Nonlinear Inactivation Kinetics of Escherichia coli ATCC 11229 by High Pressure Processing - Christopher J. Doona, Florence E. Feeherry, Edward W. Ross, Maria Corradini, and Micha Peleg.
7. Sensitization of microorganisms to high-pressure processing by phenolic compounds - Yoon-Kyung Chung, Aaron S. Malone, and Ahmed E. Yousef.
8. Functional genomics for optimal microbiological stability of processed food products - Stanley Brul, Hans van der Spek, Bart J.F. Keijser, Frank H.J. Schuren, Suus J.C.M. Oomes, and Roy C. Montijn.
9. Determination of Quality Differences in Low-Acid Foods Sterilized by High Pressure Versus Retorting - Ming H. Lau and Evan J. Turek.
10. Consumer Evaluations of High Pressure Processed Foods - Alan O. Wright, Armand V. Cardello, and Rick Bell.
11. Compression Heating and Temperature Control in High Pressure Processing - Edmund Ting
3. Inactivation of Bacillus cereus by High Hydrostatic Pressure - Murad A. Al-Holy, Mengshi Lin, and Barbara A. Rasco.
4. Inactivation of Bacillus spores at low pH and in milk by high pressure at moderate temperature - Isabelle Van Opstal, Abram Aertsen, and Chris W. Michiels.
5. Pressure and heat resistance of Clostridium botulinum and other endospores - Michael G. Gaenzle, Dirk Margosch, Roman Buckow, Matthias A. Ehrmann, Volker Heinz, and Rudi F. Vogel.
6. The Quasi-chemical and Weibull Distribution Models of Nonlinear Inactivation Kinetics of Escherichia coli ATCC 11229 by High Pressure Processing - Christopher J. Doona, Florence E. Feeherry, Edward W. Ross, Maria Corradini, and Micha Peleg.
7. Sensitization of microorganisms to high-pressure processing by phenolic compounds - Yoon-Kyung Chung, Aaron S. Malone, and Ahmed E. Yousef.
8. Functional genomics for optimal microbiological stability of processed food products - Stanley Brul, Hans van der Spek, Bart J.F. Keijser, Frank H.J. Schuren, Suus J.C.M. Oomes, and Roy C. Montijn.
9. Determination of Quality Differences in Low-Acid Foods Sterilized by High Pressure Versus Retorting - Ming H. Lau and Evan J. Turek.
10. Consumer Evaluations of High Pressure Processed Foods - Alan O. Wright, Armand V. Cardello, and Rick Bell.
11. Compression Heating and Temperature Control in High Pressure Processing - Edmund Ting