Advanced search
Publication Cover
International Journal of Food Properties Volume 20, 2017 - Issue 11
Submit an article Journal homepage
9,932
Views
12
CrossRef citations to date
0
Altmetric
Articles

Solubility and structure of milk powders manufactured with the addition of disodium phosphate and tetrasodium pyrophosphate mixtures

A. SadatFaculty of Food Science and Technology, Science and Research Branch, Islamic Azad University, Tehran, Iran
,
H. EzzatpanahFaculty of Food Science and Technology, Science and Research Branch, Islamic Azad University, Tehran, IranCorrespondence[email protected]
&
H. BakhodaFaculty of Agriculture and Natural Resources, Science and Research Branch, Islamic Azad University, Tehran, Iran
Pages 2645-2657 | Received 27 Jul 2016, Accepted 08 Oct 2016, Published online: 02 Mar 2017

References

  • Reddy, R.S.; Ramachandra, C.; Hiregoudar, S.; Nidoni, U.; Ram, J.; Kammar, M. Influence of Processing Conditions on Functional and Reconstitution Properties of Milk Powder Made from Osmanabadi Goat Milk by Spray Drying. Small Ruminant Research 2014, 119(1), 130–137.
  • Kaliappan, S.; Lucey, J.A. Influence of Mixtures of Calcium-Chelating Salts on the Physicochemical Properties of Casein Micelles. Journal of Dairy Science 2011, 94(9), 4255–4263.
  • Silva, N.N.; Piot, M.; de Carvalho, A.F.; Violleau, F.; Fameau, A.-L.; Gaucheron, F. pH-induced Demineralization of Casein Micelles Modifies their Physico-Chemical and Foaming Properties. Food Hydrocolloids 2013, 32(2), 322–330.
  • Fox, P.F.; Brodkorb, A. The Casein Micelle: Historical Aspects, Current Concepts and Significance. International Dairy Journal 2008, 18(7), 677–684.
  • Horne, D.S. Casein Interactions: Casting Light on the Black Boxes, the Structure in Dairy Products. International Dairy Journal 1998, 8(3), 171–177.
  • Lucey, J.A.; Fox, P. Importance of Calcium and Phosphate in Cheese Manufacture: A Review. Journal of Dairy Science 1993, 76(6), 1714–1724.
  • Holt, C.; Fox, P. Effect of Heating and Cooling on the Milk Salts and their Interaction with Casein. Heat-Induced Changes in Milk 1995, (Ed. 2), 105–133.
  • Anema, S.G. Role of colloidal Calcium Phosphate in the Acid Gelation Properties of Heated Skim Milk. Food Chemistry 2009, 114(1), 161–167.
  • Ozcan-Yilsay, T.; Horne, D.; Lucey, J. Effect of Increasing the Colloidal Calcium Phosphate of Milk on the Texture and Microstructure of Yogurt. Journal of Dairy Science 2011, 94(11), 5278–5288.
  • Mizuno, R.; Lucey, J. A. Effects of Emulsifying Salts on the Turbidity and Calcium-Phosphate–Protein Interactions in Casein Micelles. Journal of Dairy Science 2005, 88(9), 3070–3078.
  • Odagiri, S.; Nickerson, T. Complexing of Calcium by Hexametaphosphate, Oxalate, Citrate, and Ethylenediamine-Tetraacetate in Milk. II. Dialysis of Milk Containing Complexing Agents. Journal of Dairy Science 1965, 48(1), 19–22.
  • Tsioulpas, A.; Koliandris, A.; Grandison, A.S.; Lewis, M.J. Effects of Stabiliser Addition and In-Container Sterilisation on Selected Properties of Milk Related to Casein Micelle Stability. Food Chemistry 2010, 122(4), 1027–1034.
  • Dimitreli, G.; Thomareis, A.S. Instrumental Textural and Viscoelastic Properties of Processed Cheese as Affected by Emulsifying Salts and in Relation to its Apparent Viscosity. International Journal of Food Properties 2009, 12(1), 261–275.
  • Caric, M.; Gantar, M.; Kalab, M. Effects of Emulsifying Agents on the Microstructure and other Characteristics of Process Cheese-A Review. Food Structure 1985, 4(2), 13.
  • Gao, R.; van Halsema, F.; Temminghoff, E.; van Leeuwen, H.; van Valenberg, H.; Eisner, M.; van Boekel, M. Modelling Ion Composition in Simulated Milk Ultrafiltrate (SMUF) II. Influence of pH, Ionic Strength and Polyphosphates. Food Chemistry 2010, 122(3), 710–715.
  • de Kort, E.; Minor, M.; Snoeren, T.; van Hooijdonk, T.; van der Linden, E. Effect of Calcium Chelators on Physical Changes in Casein Micelles in Concentrated Micellar Casein Solutions. International Dairy Journal 2011, 21(12), 907–913.
  • Zhao, Z.; Corredig, M. Changes in the Physico-Chemical Properties of Casein Micelles in the Presence of Sodium Chloride in Untreated and Concentrated Milk Protein. Dairy Science & Technology, 2015, 95(1), 87–99.
  • Zhao, Z.; Corredig, M. Influence of Sodium Chloride on the Colloidal and Rennet Coagulation Properties of Concentrated Casein Micelle Suspensions. Journal of Dairy Science, 2016, 99(8), 6036–6045.
  • Cavalier‐Salou, C.; Cheftel, J. Emulsifying Salts Influence on Characteristics of Cheese Analogs from Calcium Caseinate. Journal of Food Science 1991, 56(6), 1542–1547.
  • El-Bakry, M.; Duggan, E.; O’Riordan, E.; O’Sullivan, M. Effects of Emulsifying Salts Reduction on Imitation Cheese Manufacture and Functional Properties. Journal of Food Engineering 2010, 100(4), 596–603.
  • Sádlíková, I.; Buňka, F.; Budínský, P.; Barbora, V.; Pavlínek, V.; Hoza, I. The Effect of Selected Phosphate Emulsifying Salts on Viscoelastic Properties of Processed Cheese. LWT-Food Science and Technology 2010, 43(8), 1220–1225.
  • Ozcan-Yilsay, T.; Lee, W.-J.; Horne, D.; Lucey, J. Effect of Trisodium Citrate on Rheological and Physical Properties and Microstructure of Yogurt. Journal of Dairy Science 2007, 90(4), 1644–1652.
  • Schuck, P.; Briard, V.; Méjean, S.; Piot, M.; Famelart, M.; Maubois, J. Dehydration by Desorption and by Spray Drying of Dairy Proteins: Influence of the Mineral Environment. Drying Technology 1999, 17(7–8), 1347–1357.
  • Schuck, P.; Davenel, A.; Mariette, F.; Briard, V.; Méjean, S.; Piot, M. Rehydration of Casein Powders: Effects of Added Mineral Salts and Salt Addition Methods on Water Transfer. International Dairy Journal 2002, 12(1), 51–57.
  • Anema, S. G. The Effect of Hexametaphosphate Addition During Milk Powder Manufacture on the Properties of Reconstituted Skim Milk. International Dairy Journal 2015, 50, 58–65.
  • Sikand, V.; Tong, P.S.; Vink, S.; Roy, S. Physicochemical Properties of Skim Milk Powders Prepared with the Addition of Mineral Chelators. Journal of Dairy Science 2016, 99(6), 4146–4153.
  • Clausi, A. S. Pudding Composition and Process of Producing the Same. General Foods Corporation assignee 1957. US Patent 2,801,924.
  • Mizuno, R.; Lucey, J. A. Properties of Milk Protein Gels Formed by Phosphates. Journal of Dairy Science 2007, 90(10), 4524–4531.
  • Erbay, Z.; Koca, N.; Kaymak-Ertekin, F.; Ucuncu, M. Optimization of Spray Drying Process in Cheese Powder Production. Food and Bioproducts Processing 2014, 93, 156–165. doi:10.1016/j.fbp.2013.12.008
  • Rulliere, C.; Perenes, L.; Senocq, D.; Dodi, A.; Marchesseau, S. Heat Treatment Effect on Polyphosphate Chain Length in Aqueous and Calcium Solutions. Food Chemistry 2012, 134(2), 712–716.
  • ISO. Milk - Determination of Fat Content. ISO Standard 2008, No. 2446. Geneva, Switzerland: International Standardisation Organisation.
  • ISO. Dried Milk and Dried Milk Products - Determination of Fat Content - Gravimetric Method (Reference Method). ISO Standard 2008, No. 1736. Geneva, Switzerland: International Standardisation Organisation.
  • ISO. Milk and Milk Products - Determination of Nitrogen Content - Part 1: Kjeldahl Principle and Crude Protein Calculation. ISO Standard 2014, No. 8968-1. Geneva, Switzerland: International Standardisation Organisation.
  • ISO. Milk, Cream and Evaporated Milk - Determination of Total Solids Content (Reference Method). ISO Standard 2010, No. 6731. Geneva, Switzerland: International Standardisation Organisation.
  • Walstra, P.; Wouters, J.T.; Geurts, T.J. Dairy Science and Technology (2nd edn., Chapt. 10). BocaRaton, FL,USA: CRC Press, 2005.
  • ISO. (2010). Dried milk - Determination of Titratable Acidity (Reference Method). ISO Standard No. 6091. Geneva, Switzerland: International Standardisation Organisation.
  • Westergaard, V. Analytical Methods Raw Milk, Concentrate and Powder Properties. In Milk Powder Technology: Evaporation and Spray Drying. Westergaard, V.; Ed.; Copenhagen, Denmark: Niro A/S, 2004; 203–213.
  • Podstawczyk, D.; Witek-Krowiak, A.; Dawiec, A., Bhatnagar, A. Biosorption of Copper (II) Ions by Flax Meal: Empirical Modeling and Process Optimization by Response Surface Methodology (RSM) and Artificial Neural Network (ANN) Simulation. Ecological Engineering 2015, 83, 364–379.
  • Ghorbani, F.; Younesi, H.; Ghasempouri, S.M.; Zinatizadeh, A.A.; Amini, M.; Daneshi, A. Application of Response Surface Methodology for Optimization of Cadmium Biosorption in an Aqueous Solution by Saccharomyces Cerevisiae. Chemical Engineering Journal 2008, 145(2), 267–275.
  • Spreer, E. Milk and Dairy Product Technology (1st edn., Chapt. 2). NewYork, USA: Marcel Dekker, Inc, 1998.
  • Tamime, A.Y. Processed Cheese and Cheese Analogues. In Structure of dairy products. Tamime, A.Y.; Ed.; Ayr, UK: Blackwell Publishing Ltd, 2008; 213–215.
  • Upreti, P.; Metzger, L. Influence of Calcium and Phosphorus, Lactose, and Salt-to-Moisture Ratio on Cheddar Cheese Quality: pH Changes during Ripening. Journal of Dairy Science 2007, 90(1), 1–12.
  • Gupta, S.; Karahadian, C.; Lindsay, R. Effect of Emulsifier Salts on Textural and Flavor Properties of Processed Cheeses. Journal of Dairy Science 1984, 67(4), 764–778.
  • Salek, R.N.; Černíková, M.; Nagyová, G.; Kuchař, D.; Bačová, H.; Minarčíková, L.; Buňka, F. The Effect of Composition of Ternary Mixtures Containing Phosphate and Citrate Emulsifying Salts on Selected Textural Properties of Spreadable Processed Cheese. International Dairy Journal 2015, 44, 37–43.
  • Martin, G.; Williams, R.; Dunstan, D. Comparison of Casein Micelles in Raw and Reconstituted Skim Milk. Journal of Dairy Science 2007, 90(10), 4543–4551.
  • de Kort, E.; Minor, M.; Snoeren, T.; van Hooijdonk, T.; van der Linden, E. Effect of Calcium Chelators on Heat Coagulation and Heat-Induced Changes of Concentrated Micellar Casein Solutions: The Role of Calcium-Ion Activity and Micellar Integrity. International Dairy Journal 2012, 26(2), 112–119.
  • Gaiani, C.; Banon, S.; Scher, J.; Schuck, P.; Hardy, J. Use of a Turbidity Sensor to Characterize Micellar Casein Powder Rehydration: Influence of Some Technological Effects. Journal of Dairy Science 2005, 88(8), 2700–2706.
  • Chandan, R.C.; Kilara, A. Dry Milk Ingredients. In Dairy Ingredients for Food Processing; Chandan, R.C.; Kilara, A. Ed.; Iowa, USA: John Wiley and Sons Inc, 2011; 142–151.
  • Fox, P.F.; McSweeney, P.L.H. Water in Milk and Dairy Products. In Dairy Chemistry and Biochemistry; Fox, P.F.; McSweeney, P.L.H.; Eds.;. London, UK: Blackie Academic & Professional, 1998; 308–309.
  • Gaucher, I.; Piot, M.; Beaucher, E.; Gaucheron, F. Physico-Chemical Characterization of Phosphate-Added Skim Milk. International Dairy Journal 2007, 17(12), 1375–1383.
  • Lamure, A.; Pommert, J.-F.; Klaebe, A.; Lacabanne, C.; Perie, J.-J. Effect of Polyphosphate Binding on the Chain Dynamic of Caseins: Investigation by Differential Scanning Calorimetry and Thermally Stimulated Currents. Journal of Dairy Research 1988, 55(03), 401–412.
  • Lee, S.K.; Buwalda, R.; Euston, S.; Foegeding, E.; McKenna, A. Changes in the Rheology and Microstructure of Processed Cheese During Cooking. LWT-Food Science and Technology 2003, 36(3), 339–345.
  • El-Bakry, M.; Duggan, E.; O’Riordan, E.; O’Sullivan, M. Effect of Chelating Salt Type on Casein Hydration and Fat Emulsification during Manufacture and Post-manufacture Functionality of Imitation Cheese. Journal of Food Engineering 2011, 102(2), 145–153.
  • Straatsma, J.; Van Houwelingen, G.; Steenbergen, A.; De Jong, P. Spray Drying of Food Products: 2. Prediction of Insolubility Index. Journal of Food Engineering 1999, 42(2), 73–77.
  • Fox, K.; Harper, M.K.; Holsinger, V.H.; Pallansch, M.J. Gelation of Milk Solids by Orthophosphate. Journal of Dairy Science 1965, 48(2), 179–185.
  • Gaiani, C.; Mullet, M.; Arab-Tehrany, E.; Jacquot, M.; Perroud, C.; Renard, A.; Scher, J. Milk Proteins Differentiation and Competitive Adsorption during Spray-Drying. Food Hydrocolloids 2011, 25(5), 983–990.
  • Kelly, G.M.; O’Mahony, J.A.; Kelly, A.L.; Huppertz, T.; Kennedy, D.; O’Callaghan, D.J. Influence of Protein Concentration on Surface Composition and Physico-Chemical Properties of Spray-Dried Milk Protein Concentrate Powders. International Dairy Journal 2015, 51, 34–40.
  • Anema, S.G.; Pinder, D.; Hunter, R.; Hemar, Y. Effects of Storage Temperature on the Solubility of Milk Protein Concentrate (MPC85). Food Hydrocolloids 2006, 20(2), 386–393.
  • Mimouni, A.; Deeth, H. C.; Whittaker, A. K.; Gidley, M. J.; Bhandari, B. R. Rehydration Process of Milk Protein Concentrate Powder Monitored by Static Light Scattering. Food Hydrocolloids 2009, 23(7), 1958–1965.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.