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Ultra-High Pressure Homogenization-Induced Changes in Skim Milk: Impact on Acid Coagulation Properties

Published online by Cambridge University Press:  29 January 2008

Mar Serra
Affiliation:
Centre Especial de Recerca Planta de Tecnologia dels Aliments (CERPTA), CeRTA, XiT, Departament de Ciència Animal i dels Aliments, Facultat de Veterinària, Universitat Autònoma de Barcelona, 08193 Bellaterra, Spain
Antonio J Trujillo
Affiliation:
Centre Especial de Recerca Planta de Tecnologia dels Aliments (CERPTA), CeRTA, XiT, Departament de Ciència Animal i dels Aliments, Facultat de Veterinària, Universitat Autònoma de Barcelona, 08193 Bellaterra, Spain
Pamela D Jaramillo
Affiliation:
Centre Especial de Recerca Planta de Tecnologia dels Aliments (CERPTA), CeRTA, XiT, Departament de Ciència Animal i dels Aliments, Facultat de Veterinària, Universitat Autònoma de Barcelona, 08193 Bellaterra, Spain
Buenaventura Guamis
Affiliation:
Centre Especial de Recerca Planta de Tecnologia dels Aliments (CERPTA), CeRTA, XiT, Departament de Ciència Animal i dels Aliments, Facultat de Veterinària, Universitat Autònoma de Barcelona, 08193 Bellaterra, Spain
Victoria Ferragut*
Affiliation:
Centre Especial de Recerca Planta de Tecnologia dels Aliments (CERPTA), CeRTA, XiT, Departament de Ciència Animal i dels Aliments, Facultat de Veterinària, Universitat Autònoma de Barcelona, 08193 Bellaterra, Spain
Corresponding
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Abstract

The effects of ultra-high pressure homogenization (UHPH) on skim milk yogurt making properties were investigated. UHPH-treated milk was compared with conventionally homogenised (15 MPa) heat-treated skim milk (90°C for 90 s), and to skim milk treated under the same thermal conditions but fortified with 3% skim milk powder. Results of the present study showed that UHPH is capable of reducing skim milk particle size which leads to the formation of finer dispersions than those obtained by conventional homogenisation combined with heat treatment. In addition, results involving coagulation properties and yogurt characteristics reflected that, when increasing UHPH pressure conditions some parameters such as density of the gel, aggregation rate and water retention are improved.

Type
Research Article
Copyright
Copyright © Proprietors of Journal of Dairy Research 2008

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References

Adapa, S, Schmidt, KA & Toledo, R 1997 Functional Properties of Skim Milk Processed with Continuous High Pressure Throttling. Journal of Dairy Science 80(9) 19411948.CrossRefGoogle Scholar
Briñez, W, Roig-Sagués, AX, Herrero, MMH & López, BG 2006 Inactivation of two strains of Escherichia coli inoculated into whole and skim milk by ultrahigh pressure homogenisation. Lait 86 241249CrossRefGoogle Scholar
Cho, YH, Lucey, JA & Singh, H 1999 Rheological properties of acid milk gels as affected by the nature of the fat globule surface material and heat treatment of milk. International Dairy Journal 9(8) 537545.CrossRefGoogle Scholar
Dannenberg, F & Kessler, HG 1998 Effect of denaturation of β-lactoglobuline on texture properties of set-style non fat yogurt. 1. Syneresis and flow properties. Milchwissenschaft 43 700704Google Scholar
Datta, N, Hayes, MG, Deeth, H & Kelly, AL 2005 Significance of frictional heating for effects of high pressure homogenisation on milk. Journal of Dairy Research 72 393399CrossRefGoogle ScholarPubMed
Desrumaux, A & Marcand, J 2002 Formation of sunflower oil emulsions stabilized by whey proteins with high pressure homogenization (up to 350 MPa): effect of pressure on emulsion characteristics. International Journal of Food Science 37 263269CrossRefGoogle Scholar
Diels, AMJ, Callewaert, L, Wyutack, EY, Masschalck, B & Michiels, CW 2004 Moderates temperatures affect Escherichia coli by high pressure homogenization only through fluid viscosity. Biotechnology 20 15121517Google Scholar
Diels, AMJ, Callewaert, L, Wyutack, EY, Masschalck, B & Michiels, CW 2005 Inactivation of Escherichia coli by high pressure homogenisation is influenced by fluid viscosity but not by water activity and product composition. International Journal of Food Microbiology 105 165175CrossRefGoogle Scholar
Floury, J, Legrand, J & Desrumaux, A 2003 Analysis of a new type of high pressure homogeniser. Part B. Study of droplet break-up and recoalescence phenomena. Chemical Engineering Science 59 12851294CrossRefGoogle Scholar
Gaucheron, F 2005 The minerals of milk. Reproduction and Nutritional Development 45 473483CrossRefGoogle ScholarPubMed
Hayes, MG, Fox, PF & Kelly, AL 2004 Potencial applications of high pressure homogeisation in processing of liquid milk. Journal of Dairy Research 71 19Google Scholar
Hayes, MG & Kelly, AL 2003 High pressure homogenisation of raw bovine milk (a) effects on fat globule size and other properties. Journal of Dairy Research 70 297305CrossRefGoogle ScholarPubMed
Hayes, MG & Kelly, AL 2003 High pressure homogenisation of milk (b) effects on indigenous enzymatic activity. Journal of Dairy Research 70 307313CrossRefGoogle ScholarPubMed
IDF 1981 Milk Determination of fat content. IDF Standard 105. Brussels, Belgium: International Dairy FederationGoogle Scholar
IDF 1987 Milk, cream and evaporated milk. Determination of total solids content. IDF Standard 21B. Brussels, Belgium: International Dairy FederationGoogle Scholar
IDF 2002 Milk and milk products – Determination of nitrogen content. IDF Standard 185/ISO 14891. Brussels, Belgium: International Dairy FederationGoogle Scholar
Kalab, M, Allan-Wojtas, P & Phipps-Todd, BE 1983 Development of microstructure in set-style nonfat yoghurt – a review. Food Microstructure 2 5166Google Scholar
Lucey, JA, Teo, TC, Munro, PA & Singh, H 1997 Rheological properties at small (dynamic) and large (yield) deformation of acid gels made from heated milk. Journal of Dairy Research 64 591600CrossRefGoogle Scholar
Middelberg, A 1995 Process-scale disruption of microorganisms. Biotechnology Advances 13 491551CrossRefGoogle ScholarPubMed
Olson, DW, White, CH & Richter, RL 2004 Effect of pressure and fat content on particle size in microfluidized milk. Journal of Dairy Science 87 32173223CrossRefGoogle ScholarPubMed
Pandolfe, WD & Kinney, RR 1999 High-pressure homogenisation: latest technology expand performance and product possibilities. Chemical Processing 61(3) 3943.Google Scholar
Pereda, J, Ferragut, V, Guamis, B & Trujillo, AJ 2006 Effect of ultra-high pressure homogenisation on natural-occuringj micro-organisms in bovine milk. Milchwissenschaft 61 245248Google Scholar
Resmini, P, Pellegrino, L, Andreini, R & Prati, F 1989 Determinazione delle sieroproteine solubili del latte per HPLC. Scienza e Tecnica Lattiero-Casearia 40(1) 723Google Scholar
Sandra, S & Dalgleish, DG 2005 Effects of ultra-high-pressure homogenization and heating on structural properties of casein micelles in reconstituted skim milk powder. International Dairy Journal 15(11) 10951104CrossRefGoogle Scholar
Serra, M, Trujillo, AJ, Quevedo, JM, Guamis, B & Ferragut, V 2007 Acid coagulation properties and suitability for yogurt production of cows' milk treated by high-pressure homogenisation. International Dairy Journal 17(7) 782790CrossRefGoogle Scholar
Sodini, I, Remeuf, F, Haddad, S & Corrieu, G 2004 The Relative Effect of Milk Base, Starter and Process on Yogurt Texture. Critical Reviews in Food Science and Nutrition 44 113137CrossRefGoogle ScholarPubMed
Tamine, AY & Robinson, RK 1999 Yoghurt: Science and Technology. 2nd ed.CRC Press LLC, Boca Ratón, FLGoogle Scholar
Thiebaud, M, Dumay, E, Picart, L, Guiraud, JP & Cheftel, JC 2003 High-pressure homogenisation of raw bovine milk. Effects on fat globule size distribution and microbial inactivation. International Dairy Journal 13(6) 427439CrossRefGoogle Scholar
Vachon, JF, Kheadr, EE, Giasson, J, Paquin, P & Fliss, I 2001 Inactivation of Foodborne Pathogens in Milk using Dynamic High Pressure. Journal of Food Protection 65(2) 345352CrossRefGoogle Scholar
Zamora, A, Ferragut, V, Jaramillo, PD, Guamis, B & Trujillo, AJ 2007 Effects of Ultra-High Pressure Homogenization on the Cheese-Making Properties of Milk. Journal of Dairy Science 90(1) 1323CrossRefGoogle ScholarPubMed

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