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International Journal of Food Properties Volume 14, 2011 - Issue 1
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Original Articles

Evaluation of Phosphatase Inactivation Kinetics in Milk Under Continuous Flow Microwave and Conventional Heating Conditions

Manguang Lin Department of Food Science, Macdonald Campus of McGill University, Ste. Anne de Bellevue, PQ, Canada
&
Hosahalli S. Ramaswamy Department of Food Science, Macdonald Campus of McGill University, Ste. Anne de Bellevue, PQ, CanadaCorrespondence[email protected]
Pages 110-123 | Received 26 Oct 2008, Accepted 27 Jun 2009, Published online: 05 Feb 2011

REFERENCES

  • Jaynes , H.O. 1975 . Microwave pasteurization of milk . J. Milk Food Technology , 38 : 386 – 397 .
  • Chiu , C.P. , Tateishi , K. , Kosikowski , F.V. and Armbruster , G. 1984 . Microwave treatment of pasteurized milk . J. Microwave Power , 19 : 269 – 272 .
  • Decareau , R.V. 1984 . Microwaves in food processing . Food Technology, Australia , 36 ( 2 ) : 81 – 86 .
  • Decareau , R.V. 1985 . Microwaves in the Food Processing Industry , 234 New York : Academic Press, Inc .
  • Knutson , K.M. , Marth , E.H. and Wagner , M.K. 1988 . Use of microwave ovens to pasteurize milk . J. Food Protection , 51 ( 9 ) : 715 – 719 .
  • Thompson , J.S. and Thompson , A. 1990 . In-home pasteurization of raw goat's milk by microwave treatment . International Journal of Food Microbiology , 10 : 59 – 64 .
  • Kudra , T. , van de Voort , F.R. , Raghavan , G.S.V. and Ramaswamy , H.S. 1991 . Heating characteristics of milk constituents in a microwave pasteurization system . J. Food Science , 56 ( 4 ) : 931 – 934 .
  • Villamiel , M. , López-Fandiño , R. , Corzo , N. , Martínez-Castro , I. and Olano , A. 1996 . Effects of continuous flow microwave treatment on chemical and microbiological characteristics of milk . European Food Research and Technology , 202 ( 1 ) : 15 – 18 .
  • Anantheswaran , R.C. and Ramaswamy , H.S. 2001 . “ Chemical and Biological Changes Due to Heating. Microbial and biochemical destruction during microwave heating ” . In In Handbook of Microwave Technology For the Food Applications , Edited by: Datta , A.K. and Anantheswaran , R.C. 191 – 213 . New York , NY : Marcell Dekker Inc . Chapter 6
  • Ramaswamy , H.S. , Koutchma , T. and Tajchakavit , S. 2002 . “ Enhanced thermal effects under microwave heating conditions ” . In Engineering and Food , Edited by: Welti-Chains , J. , Barbosa-Canóvas , G. and Aguilera , J.M. New York , NY : Technomic Publishing Co . 2002
  • Gentry , T.S. and Roberts , J.S. 2005 . Design and evaluation of a continuous flow microwave pasteurization system for apple cider . LWT , 38 : 227 – 238 .
  • Tessier , F.J. , Gadonna-Widehem , P. and Laguerre , J.C. 2006 . The fluorometric FAST method, a simple tool for the optimization of microwave pasteurization of milk . Molecular Nutrition & Food Research , 50 ( 9 ) : 793 – 798 .
  • Clare , D.A. , Bang , W.S. , Cartwright , G. , Drake , M.A. , Coronel , P. and Simunovic , J. 2005 . Comparison of Sensory, Microbiological, and Biochemical Parameters of Microwave Versus Indirect UHT Fluid Skim Milk During Storage . J. Dairy Science , 88 : 4172 – 4182 .
  • Lu , Q. , Piyasena , P. and Mittal , G.S. 2001 . Modeling Alkaline Phosphatase Inactivation in Bovine Milk during High-Temperature Short-Time Pasteurization . Food Science and Technology International , 7 : 479
  • Ramaswamy , H.S. and Ranganna , S. 1981 . Thermal inactivation of peroxidase in relation to quality of frozen cauliflower (var. Indian Snowball) . Can. Inst. Food Science. Technology Journal , 14 ( 2 ) : 139 – 143 .
  • Awuah , G. , Ramaswamy , H.S. and Simpson , B.K. 1993 . Thermal inactivation kinetics of trypsin inhibitor at aseptic processing temperature . Journal of Food Process Engineering , 16 : 315 – 328 .
  • Tajchakavit , S. 1997 . Continuous-flow microwave heating of orange juice: Kinetics of enzyme inactivation/microbial destruction and evaluation of enhanced thermal effects , PhD Thesis, McGill University, Food Science Department .
  • Tajchakavit , S. and Ramaswamy , H.S. 1997 . Continuous-flow microwave inactivation kinetics of pectin methyl esterase in orange juice . J. Food Processing and Preservation , 21 : 365 – 378 .
  • AOAC . 1995 . Official Method of Analysis of Phosphatase (Residual) in milk , 16th , V.2 Chapter Vol. 33 , 35 – 36 . (AOAC Official Method 979.13); AOAC .
  • Levieux , D. , Geneix , N. and Levieux , A. 2007 . Inactivation-denaturation kinetics of bovine milk alkaline phosphatase during mild heating as determined by using a monoclonal antibody-based immunoassay . J. Dairy Research , 74 ( 3 ) : 296 – 301 .
  • Claeys , W.L. , Ludikhuyze , L.R. , van Loey , A.M. and Hendrickx , M.E. 2001 . Inactivation kinetics of alkaline phosphatase and lactoperoxidase, and denaturation kinetics of beta-lactoglobulin in raw milk under isothermal and dynamic temperature conditions . J. Dairy Research , 68 ( 1 ) : 95 – 107 .

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