Food Biochemistry and Food Processing (2 edition)

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BLBS102-c39 BLBS102-Simpson March 21, 2012 14:20 Trim: 276mm X 219mm Printer Name: Yet to Come


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Minimally Processed Foods


Michael O. Ngadi, Sammy S.S. Bajwa, and Joseph Alakali


Introduction
Overview of Thermal Processing Techniques
High Temperature Short Time Process
Aseptic Processing
Sous-Vide Processing
Electrical Heating of Foods
Ohmic Heating
Dielectric Heating
Nonthermal Processing Technologies
High-Pressure Processing
Pulse Electric Field Processing
Low-Dose Irradiation
Ultrasound
UV Irradiation
Other Techniques
Quality and Safety Considerations: The Hurdle Concept
Microbial Stress
Multitarget Preservation of Foods
Limitations of Hurdle Concept
Packaging Techniques for Minmally Processed Foods
Map
Active and Edible Packaging
Conclusion
References

Abstract:The widespread, strong and consistent demands for fresh-
like and safe food products have been among the major factors
driving innovative food processing technologies. The sometimes
divergent requirements for food quality and safety have contin-
ued to challenge food scientists and engineers. Minimally pro-
cessed foods are produced without or with mild heat treatment
that result in safe products without quality degradation. To produce
these products, nonthermal technologies are being introduced to re-
place or complement the well-established thermal processes. Tech-
niques that combine different mild hurdles to restrict the growth
of food spoiling microorganisms are also used. The hurdles are
typically applied in a logical sequence to take advantage of pos-

sible synergistic interactions between them to enhance safety and
quality of food products. The various techniques of minimal pro-
cessing of foods are reviewed in this chapter along with the re-
quired packaging considerations that are needed for the processed
products.

INTRODUCTION


The normal objective of food processing is to transform a prod-
uct to ensure that it has adequate nutrient content, acceptable
to consumers with respect to sensory and functional properties,
and that it is microbiologically and chemically safe to consume.
Thus, humans have traditionally embarked on series of activi-
ties and have taken advantage of various techniques, including
various types of cooking, smoking, fermenting, sun drying, and
salt preservation to transform food products. Nicolas Appert’s
introduction of canning and thermal processing revolutionized
and set the stage for the modern food processing industry. De-
spite the huge market for canned and processed foods, there
is strong and increasing demand for fresh and minimally pro-
cessed health-centered foods. This demand for products with
fresh-like characteristics has changed the traditional food pro-
cessing mantra. New and lucrative markets are being developed
for “fresh or fresher foods” that are “high” or “low” in certain
target constituents (e.g., less salt, fat and sugar; and more in
fiber and health-promoting chemicals). This rise in consumer
health consciousness can be attributed to wide societal and sci-
entific reawakening to the benefits of fresh products, including
fruits and vegetables (Allende et al. 2006). Fresh fruits and
vegetables are known to be of higher quality and rich in an-
tioxidants, which are crucial in the fight against cancer (Flood
et al. 2002). However, the recent and increasing incidences of
food-borne pathogens in food products have heightened the alert
for increased food safety. Although Canada has one of the best

Food Biochemistry and Food Processing, Second Edition. Edited by Benjamin K. Simpson, Leo M.L. Nollet, Fidel Toldr ́a, Soottawat Benjakul, Gopinadhan Paliyath and Y.H. Hui.
©C2012 John Wiley & Sons, Inc. Published 2012 by John Wiley & Sons, Inc.

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