The Effects of Emulsifiers Application on Characteristics of Mayonnaise
محورهای موضوعی : food microbiologySh. Dadkhah 1 , P. Damanafshan 2 , A. Taheri Yeganeh 3 , P. Homati 4
1 - Research and Development Food Technologist, Amadehlaziz Co., Karaj, Iran.
2 - Research and Development Supervisor, Azar Noosh Shokoofeh Co., Tehran, Iran.
3 - Research and Development Director, Food and Drug Administration Alborz University of Medical Sciences, Karaj, Iran.
4 - Quality Control and Laboratory Manager, Pak Dairy Co., Tehran, Iran.
کلید واژه: Mayonnaise, Emulsion, Emulsifiers, Egg Yolk, Stability,
چکیده مقاله :
Mayonnaise is a semisolid emulsion that is made by mixing oil with mustard, egg yolk, vinegar and is sensitive to spoilage due to its high polyunsaturated fatty acids content. The amount of oil and egg yolk added, viscosity, water quality, the volume of oil and aqueous phase, method of mixing and temperature affect the stability of mayonnaise. Phase inversion occurs when the emulsion changes from the oil-in-water (O/W) emulsion to the water-in-oil (W/O) emulsion. Egg yolk as an emulsifier has surface-active fractions such as livetin, lipovitellin, lipovitellenin that prevent coalescing and improve the texture. Phospholipid lecithin, proteins, and lipoproteins are known to be the most important to the emulsion forming properties of egg yolk. Other emulsifying agents include animal proteins, vegetables protein isolates, modified starches and gums which can be effectively used as food emulsion stabilizers because of their capacity to reduce the interfacial tension between hydrophobic and hydrophilic components. Temperature, pH and NaCl are effective on viscoelasticity of mayonnaise emulsion. Emulsifiers increase the prevalence of metabolic diseases, specially type 1 and 2 diabetes, obesity and irritable bowel disease. Currently the tendency of the consumers to purchase the food products with low fat and low energy is led to reformulation that often requires moving from one sort of emulsifier to another. In this study, different emulsifiers and their effects on the characteristics of mayonnaise were reviewed.
Abu Ghoush, M., Samhouri, M., Al-Holy, M. and Herald, T. (2008). Formulation and fuzzy modeling of emulsion stability and viscosity of a gumeprotein emulsifier in a model mayonnaise system. Journal of Food Engineering, 84, 348e357.
American Lecithin Company, Lecithins and phospholipids, http://www.americanlecithin.com/lecithin_2009 (accessed 3 April 2019).
Anton, M. (2013). Egg Yolk: Structures. Functionalities and Processes: Egg Yolk: Structures, functionalities and processes. Journal of the Science of Food and Agriculture, 93(12), 2871–2880.
Aryana, K. J., Haque, Z. Z. and Gerard, P. D. (2002). Influence of whey protein concentrate on the functionality of egg white and bovine serum albumin. International Journal of Food Science and Technology, 37, 643–652.
Blesso, C. N., Andersen, C.J., Barona, J. and Volek, J. S. (2012). Whole egg consumption improves lipoprotein profiles and insulin sensitivity to a greater extent than yolk-free egg substitute in individuals with metabolic syndrome. Metabolism: clinical and experimental, 62(3), 400–410.
Boyer, J. L. (2013). Bile formation and secretion. Comprehensive Physiology. Comprehensive Physiology, 3, 1035–1078.
Breeding, C. J. and Beyer, R. S. (2000). Eggs, In Food Chemistry: Principles and Applications, edited by Christen G. L., and Smith, J.S. Science Technology Systems, West Sacramento CA.
Burgess, J. W., Neville, T. A., Rouillard, P., Harder, Z., Beanlands, D. S. and Sparks. D. L. (2005). Phosphatidylinositol increases HDL-C levels in humans. Journal of Lipid Research, 46, 350-355.
Canty, D. J. and Zeisel, S. H. (1994). Lecithin and choline in human health and disease. Nutrition Reviews, 52, 327–339.
Chassaing, B., Koren, O., Goodrich, J. K., Poole, A. C., Srinivasan, S., Ley, R. E. and Gewirtz, A. T. (2015). Dietary emulsifiers impact the mouse gut microbiota promoting colitis and metabolic syndrome. Nature, 519(7541), 92–96.
Chouard, G. (2004). More than gelling. Colloidal systems for permanent stabilization. Food Marketing and Technology, 18, 15–18.
Chassaing, B., Van de Wiele, T., De Bodt, J., Marzorati, M. and Gewirtz, A. T. (2017). Dietary emulsifiers directly alter human microbiota composition and gene expression ex vivo potentiating intestinal inflammation. Gut, 66, 1414–1427.
Cobb, M., Turkki, P., Linscheer, W. and Raheja, K. (1980). Lecithin Supplementation in Healthy Volunteers Effect on Cholesterol Esterification and Plasma, and Bile lipids. Annals of Nutrition and Metabolism, 24, 228–237.
Dalgleish, D. G. (1997). Adsorption of protein and the stability of emulsions, Trends in Food Science and Technology, 8, 1-6.
Davis, S. S. (1973). Rheological properties of semi-solid foodstuffs, Journal
of Texture Studies, 4, 15-40.
Daugaard, L. (1993a). Protein based emulsifiers for production of mayonnaise. Scandinavian Dairy Information, 7, 52–54.
Depree, J. A. and Savage, G. P. (2001). Physical and flavour stability of mayonnaise. Trends in Food Science and Technology, 12(5/6), 157–163.
Dickinson, E. (2013). Stabilising Emulsion-Based Colloidal Structures with Mixed Food Ingredients. Journal of the Science of Food and Agriculture, 93 (4), 710–721.
EFSA Panel on Dietetic Products, Nutrition and Allergies (NDA). (2016). Dietary reference values for choline. EFSA Journal, 14(8), 4484.
Ford, E. S., Giles, W. H. and Mokdad, A. H. (2004). Increasing prevalence of the metabolic syndrome among U.S. Adults. Diabetes Care, 27(10), 2444-2449.
Garcia, K. M. (2006). Quality Characterization of Cholesterol-Free Mayonnaise Type Spreads Containing Rice Bran Oil. Master thesis, Louisiana State University, Baton Rouge.
Garti, N., Aserin, A., Sternhein, B. and Madar, Z. (1997). Fenugreek galactomannans as food emulsions. LWT-Food Science and Technology, 30, 305–311.
Ghorbani Gorji, S., Smyth, H. E., Sharma, M. and Fitzgerald, M. (2016). Lipid Oxidation in Mayonnaise and the Role of Natural Antioxidants: A Review. Trends in Food Science and Technology, 56, 88–102.
Glade, M. J. and Meguid, M. M. (2016). Dietary emulsifiers, the human intestinal mucus and microbiome, and dietary fiber. Nutrition, 32, 609–614.
Harrison, L. J. and Cunningham, F. E. (1985). Factors influencing the quality of mayonnaise. Journal of Food Quality. 8, 1–20.
Harrison, L. J. and Cunningham, F. E. (1986). Influence of Salt on Properties of Liquid Yolk and Functionality in Mayonnaise. Poultry Science, 65(5), 915–921.
Huck-Iriart, C., Roberto Jorge, C. and Herrera, M. L. (2011). Effect of Processing Conditions and Composition on Sodium Caseinate Emulsions Stability. Procedia Food Science, 1, 116-122.
JECFA (Joint FAO/WHO Expert Committee on Food Additives). (1974a). Lecithin. In Toxicological evaluation of some food additives including anticaking agents, antimicrobials, antioxidants, emulsifiers and thickening agents (pp. 10-11). Geneva, Switzerland.
Karas, R., Skvarca, M. and Zlender, B. (2002). Sensory quality of standard and light mayonnaise during storage. Food Technology and Biotechnology, 40, 119-127.
Karner, M., Kocjan, A., Stein, J., Schreiber, S., Boyen, G. V., Uebel, P., Schmidt, C., Kupcinskas, L., Dina, I., Zuelch, F., Keihauer, G. and Stremmel, W. (2014). First multicenter study of modified release phosphatidylcholine “LT-02” in ulcerative colitis: a randomized, placebo-controlled trial in mesalazine-refractory courses. The American Journal of Gastroenterology, 109, 1041– 1051.
Kerkhofs, S., Lipkens, H., Velghe, F., Verlooy, P. and Martens, J. A. (2011). Mayonnaise production in batch and continuous process exploiting magnetohydrodynamic force. Journal of Food Engineering, 106, 35–39.
Kinyanjui, T., Artz, W. and Mahungu, S. (2003). Emulsifiers: Organic Emulsifiers. In Encyclopedia of Food Sciences and Nutrition (pp. 2070–2077). Elsevier Science Ltd: Amsterdam.
Kiosseoglou, V. D. and Sherman, P. (1983). Influence of Egg Yolk Lipoproteins on the Rheology and Stability of O/W Emulsions and Mayonnaise. 1. Viscoelasticity of 45 Groudnut Oil in Water Emulsions and Mayonnaise. Journal of Texture Studies, 14 (4),397-417.
Kumar, A., Li, S., Cheng, C. M. and Lee, D. (2015). Recent Developments in Phase Inversion Emulsification. Industrial and Engineering Chemistry Research, 54(34), pp.8375-8396.
Lagunes-Galvez, L., Cuvelier, M. E., Ordonnaud, C. and Berset, C. (2002). Oxidative Stability of Some Mayonnaise Formulations During Storage and Daylight Irradiation. Journal of Food Lipids, 9(3), 211–224.
McClements, D. J. (2004). Food Emulsions: Principles, Practice, and Techniques. Second Ed. Boca Raton : CRC Press, pp. 3-4.
McClements, D. J. (2016) Food emulsions: Principles, Practices and Techniques. Third Ed. Boca Raton: CRC press, pp. 564-570.
Mourad, A. M., Pincinato E. C., Mazzola, P. G., Sabha, M. and Moriel, P. (2010). Influence of soy lecithin administration on hypercholesterolemia. Cholesterol, 2010, 1-4.
Palacios, L. E. and Wang, T. (2005). Extraction of egg-yolk lecithin. Journal of the American Oil Chemists’ Society, 82, 565–569.
Pandey, G.N., and Carney, G.C. (2008). Environmental Engineering. McGraw-Hill, New Delhi.
Peressini, D., Sensidoni, A., and Cindio, B. (1998). Rheological Characterization of Traditional and Light Mayonnaises. Journal of Food Engineering, 35(4), 409-417.
Privett, O. S., Blanl, M. L. and Schmit, J. A. (1962). Studies on composition of egg lipid. Journal of Food Science, 27, 463–470.
Raymundo, A., Empis, J. and Sousa, I. (2000). Effect of pH and NaCl on rheological and textural properties of lupin protein emulsions, in Gums and Stabilizer for the Food Industry 10, edited by Williams, P.A., and Phillips, G.O. Royal Society of Chemistry, U.K., pp. 350-365.
Raymundo, A., Empis, J. and Sousa, I. (1998). Optimization of lupin protein emulsion composition, Polish Journal of Nutrition of Science, 48, 127-134.
Raymundo, A., Franco, J. M., Empis, J. and Sousa, I. (2002). Optimization of the composition of low-fat oil-in-water emulsions stabilized by white lupin protein. Journal of the American Oil Chemists' Society, 79(8), 783-790.
Riscardo, M. A., Franco, J. M. and Gallegos, C. (2003). Influence of composition of emulsifier blends on the rheological properties of salad dressing-type emulsion. Food Science and Technology International, 9, 53-63.
Rir, L., Feldman, L., Aserin, A. and Garti, N. (1994). Surface properties and emulsification behavior of denatured soy protein. Journal of Food Science, 59, 606–607.
Roca-Saavedra, P., Mendez-Vilabrille, V., Miranda, J. M., Nebot, C., Cardelle-Cobas, A., Franco C. M., and Cepeda, A. (2018). Food additives, contaminants and other minor components: Effects on human gut microbiota-a review. Journal of Physiology and Biochemistry, 74, 69-83.
Saad, B., Wai, W. T., Lim, B. P. and Saleh, M. I. (2006). Flow injection determination of peroxide value in edible oils using triiodide detector. Analytica Chimica Acta, 565, 261–270.
Seli, H. M., Olsen, A. G. and Kremers, R. E. (1935). Lecithin-protein: the emulsifying ingredient in egg yolk. Industrial and Engineering Chemistry, 27, 1222–1223.
Shah, R., Kolanos, R., DiNovi, M. J., Mattia, A. and Kaneko, K. J. (2017). Dietary exposures for the safety assessment of seven emulsifiers commonly added to foods in the United States and implications for safety. Food Additives and Contaminants. Part A, Chemistry, Analysis, Control, Exposure and Risk Assessment, 34, 905–917.
Smittle, R. B. (2000). Microbiological safety of mayonnaise, salad dressings, and sauces produced in the United States: a review. Journal of Food Protectection, 63, 1144–1153.
Tabilo-Munizaga, G. and Barbosa-Cánovas, G. V. (2005). Rheology for the Food Industry. Journal of Food Engineering, 67, 147-156.
Takeda, K., Matsumura, Y. and Shimizu, M. (2001). Emulsifying and surface properties of wheat gluten under acidic conditions. Journal of Food Science, 66, 393-399.
Tang, W. H. W., Wang, Z., Levison, B. S., Koeth, R. A., Britt, E. B., Fu, X., Wu, Y. and Hazen, S. N. (2013). Intestinal microbial metabolism of phosphatidylcholine and cardiovascular risk. New England Journal of Medicine, 368, 1575-1584.
Thakur, R. K., Villette, C., Aubry, J. M. and Delaplace, G. (2008). Dynamic Emulsification and Catastrophic Phase Inversion of Lecithin-based Emulsions. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 315(1-3), pp. 285-293.
Tompkins, R. K., Burke, L. G., Zollinger, R. M. and Cornwell, D. G. (1970). Relationship of biliary phospholipid and cholesterol concentrations to the occurrence and dissolution of human gallstones. Annals of Surgery, 172, 936-945.
International Food Information Council (IFIC) Foundation, Overview of Food Ingredients, Additives and Colors, November 2004; revised April 2010. https://www.fda.gov/food/ingredientspackaginglabeling/foodadditivesingredients/ucm094211.htm
Wendin, K. and Hall, G. (2001). Influences of Fat. Thickener and Emulsifier Contents on Salad Dressing: Static and Dynamic Sensory and Rheological Analyses. LWT - Food Science and Technology, 34(4), 222-233.
Wills, R. B. H. and Cheong, C. L. (1979). Use of peroxide value and carbonyl to determine the onset of rancidity in mayonnaise. Food Chemistry, 4, 259-261.
Yang, S. C. and Baldwin, R. E. (1995). Functional Properties of eggs in Food. In Eggs Science and Technology, Edited by Stadelman, W.J., and Cotterill, O.J. 4th Ed. The Haworth Press, New York, pp. 405-465.
Yildirim, M., Sumnu, G. and Sahin, S. (2016). Rheology. Particle-Size Distribution. and Stability of Low-Fat Mayonnaise Produced via Double Emulsions. Food Science and Biotechnology, 25(6), 1613-1618.