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Critical Reviews in Food Science and Nutrition Volume 56, 2016 - Issue 4
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Original Articles

Reduced Fat Food Emulsions: Physicochemical, Sensory, and Biological Aspects

Cheryl ChungDepartment of Food Science, University of Massachusetts, Amherst, Massachusetts, USA
,
Gordon SmithConAgra Foods, Six ConAgra Drive, Omaha, Nebraska, USA
,
Brian DegnerConAgra Foods, Six ConAgra Drive, Omaha, Nebraska, USA
&
David Julian McClementsDepartment of Food Science, University of Massachusetts, Amherst, Massachusetts, USACorrespondence[email protected]
Pages 650-685 | Published online: 23 Mar 2016

REFERENCES

  • Adams, S., Singleton, S., Juskaitis, R. and Wilson, T. (2007). In vivo visualization of mouth-material interaction by video rate endoscopy. Food Hydrocolloids. 21:986–995.
  • Adrian, T. E., Ferri, G. L., Bacarese-Hamilton, A. J., Fuessl, H. S., Polak, J. M. and Bloom, S. R. (1985). Human distribution and release of a putative new gut hormone, peptide YY. Gastroenterology. 89:1070–1077.
  • Aguirre-Mandujano, E., Lobato-Calleros, C., Beristain, C. I., Garcia, H. S. and Vernon-Carter, E. J. (2009). Microstructure and viscoelastic properties of low-fat yogurt structured by monoglyceride gels. LWT - Food Sci. Technol. 42:938–944.
  • Akalin, A. S., Karagozlu, C. and Unal, G. (2008). Rheological properties of reduced-fat and low-fat ice cream containing whey protein isolate and inulin. Eur. Food Res. Technol. 227:889–895.
  • Akhtar, M., Stenzel, J., Murray, B. S. and Dickinson, E. (2005). Factors affecting the perception of creaminess of oil-in-water emulsions. Food Hydrocolloids. 19:521–526.
  • Akoh, C. C. (1995). Lipid-based fat substitutes. Crit. Rev. Food Sci. Nutr. 35(5):405–430.
  • Alting, A., van de Velde, F., Kanning, M. W., Burgering, M., Mulleners, L., Sein, A. and Buwalda, P. (2009). Improved Creaminess of low-fat yogurt: The impact of amylomaltase-treated starch domains. Food Hydrocolloids. 23:980–987.
  • Aranceta, J., Moreno, B., Moya, M. and Anadon, A. (2009). Prevention of overweight and obesity from a public health perspective. Nutr. Rev. 67:S83–S88.
  • Arancibia, C., Costell, E. and Bayarri, S. (2011). Fat replacers in low-fat carboxymethyl cellulose dairy beverages: color, rheology, and consumer perception. J. Dairy Sci. 94:2245–2258.
  • Arcia, P. L., Costell, E. and Tarrega, A. (2011). Inulin blend as prebiotic and fat replacer in dairy desserts: Optimization by response surface methodology. J. Dairy Sci. 94:2192–2200.
  • Augustin, M. A., Sanguansri, L., Margetts, C. and Young, B. (2001). Microencapsulation of food ingredients. Food Australia. 53(6):220–223.
  • Augustin, M. A., Sanguansri, P. and Htoon, A. (2008). Functional performance of a resistant starch ingredient modified using a microfluidizer. Innov. Food Sci. Emerg. Technol. 9:224–231.
  • Aykan, V., Sezgin, E. and Guzel-Seydim, Z. B. (2008). Use of fat replacers in the production of reduced-calorie vanilla ice cream. Eur. J. Lipid Sci. Technol. 110(6):516–520.
  • Basheva, E. S., Kralchevsky, P. A., Christov, N. C., Danov, K. D., Stoyanov, S. D., Blijdenstein, T. B. J., Kim, H. J., Pelan, E. G. and Lips, A. (2011). Unique properties of bubbles and foam films stabilized by HFBII hydrophobin. Langmuir. 27:2382–2392.
  • Batterham, R. L., Cowley, M. A., Small, C. J., Herzog, H., Cohen, M. A., Dakin, C. L., Wren, A. M., Brynes, A. E., Low, M. J., Ghatei, M. A., Cone, R. D. and Bloom, S. R. (2002). Gut hormone PYY(3-36) physiologically inhibits food intake. Nature. 418(6898):650–654.
  • Bayarri, S., Chulia, I. and Costell, E. (2010). Comparing λ-carrageenan and an inulin blend as fat replacers in carboxymethyl cellulose dairy desserts. Rheological and sensory aspects. Food Hydrocolloids. 24:578–587.
  • Bayarri, S., Smith, T., Hollowood, T. and Hort, J. (2007). The role of rheological behavior in flavor perception in model oil/water emulsions. Eur. Food Res. Technol. 226:161–168.
  • Bayarri, S., Taylor, J. A. and Joanne, H. (2006). The Role of fat in flavor perception: Effect of partition and viscosity in model emulsions. J. Agric. Food Chem. 54:8862–8868.
  • Bell, G. A. (1996). Molecular mechanisms of olfactory perception: Their potential for future technologies. Trends Food Sci. Technol. 7(12):425–431.
  • Bellamy, M., Godinot, N., Mischler, S., Martin, N. and Hartmann, C. (2009). Influence of emulsion composition on lubrication capacity and texture perception. Int. J. Food Sci. Technol. 44:1939–1949.
  • Benjamins, J., vingerhoeds, M. H., Zoet, F. D., de Hoog, E. H. A. and van Aken, G. A. (2009a). Partial coalescence as a tool to control sensory perception of emulsions. Food Hydrocolloids. 23:102–115.
  • Benjamins, J., Vingerhoeds, M. H., Zoet, F. D., de Hoog, E. H. A. and van Aken, G. A. (2009b). Partial coalescence as a tool to control sensory perception of emulsions. Food Hydrocolloids. 23(1):102–115.
  • Bimal, C. and Zhang, G. (2006). Olestra: A Solution to Food Fat? Food Rev. Int. 22:245–258.
  • Bistany, K. L. and Kokini, J. L. (1983). Comparison of steady shear rheological properties and small amplitude dynamic viscoelastic properties of fluid food materials. J. Texture Stud. 14:113–124.
  • Blundell, J. E., de Graaf, C., Hulshof, T., Jebb, S., Livingstone, B., Lluch, A., Salah, S., Schuring, E., van der Knaap, H. and Westerterp, M. (2010). Appetite control: Methodological aspects of the evaluation of foods. Obes. Rev. 11:251–270.
  • Blundell, J. E., Goodson, S. and Halford, J. C. G. (2001). Regulation of appetite: Role of leptin in signalling systems for drive and satiety. Int. J. Obes. 25:s29–s34.
  • Bourne, M. (2002). Food Texture and Viscosity: Concept and Measurement. 2nd ed. Academic Press, San Diego.
  • Brauss, M. S., Linforth, R. S. T., Cayeux, I., Harvey, B. and Taylor, A. J. (1999). Altering the fat content affects flavor release in a model yogurt system. J. Agric. Food Chem. 47:2055–2059.
  • Bremer, J. (1983). Carnitine: Metabolism and functions. Physiol. Rev. 63:1420–1479.
  • British Standards Institute. (1975). British Standards Glossary of Terms Relating to the Sensory Analysis of Food. British Standards Institute, London.
  • Brown, W. E., Eves, D., Ellison, M. and Braxton, D. (1998). Use of combined electromyography and kinethesiology during mastication to chart the oral breakdown of food stuffs: Relevance to measurement of food texture. J. Texture Stud. 29:145–167.
  • Burcelin, R. and Dejager, S. (2010). GLP-1: What is known, new and controversial in 2010? Diab. Metab. 36:503–509.
  • Burey, P., Bhandari, B. R., Howes, T. and Gidley, M. J. (2008). Hydrocolloid gel particles: Formation, characterization, and application. Crit. Rev. Food Sci. Nutr. 48(5):361–377.
  • Campanella, O. H. and Peleg, M. (2002). Squeezing flow viscometry for nonelastic semiliquid foods—Theory and applications. Crit. Rev. Food Sci. Nutr. 42:241–264.
  • Chantrapornchai, W., Clydesdale, F. M. and McClements, D. J. (2000). Optical properties of oil-in-water emulsions containing titanium dioxide particles. Colloids Surfaces a-Physicochem. Eng. Aspects. 166(1–3):123–131.
  • Charcosset, C. (2009). Preparation of emulsions and particles by membrane emulsification for the food processing industry. J. Food Eng. 92:241–249.
  • Chatraei, S. H., Macosko, C. W. and Winter, H. H. (1981). Lubricated squeezing flow: A new biaxial extensional rheometer. J. Rheology. 25:433–443.
  • Chaudhri, O. B., Field, B. C. and Bloom, S. R. (2008). Gastrointestinal satiety signals. Int. J. Obes. 32(Suppl. 7):S28–S31.
  • Chen, J. S. (2007). Surface texture of foods: Perception and characterization. Crit. Rev. Food Sci. Nutr. 47(6):583–598.
  • Chen, J. S. (2009). Food oral processing—A review. Food Hydrocolloids. 23(1):1–25.
  • Chen, J. S. and Eaton, L. (2012). Multimodal mechanisms of food creaminess sensation. Food Funct. 3(12):1265–1270.
  • Chen, J. S. and Stokes, J. R. (2012). Rheology and tribology: Two distinctive regimes of food texture sensation. Trends Food Sci. Technol. 25(1):4–12.
  • Cho, Y. H. and McClements, D. J. (2009). Theoretical stability maps for guiding preparation of emulsions stabilized by protein-polysaccharide interfacial complexes. Langmuir. 25(12):6649–6657.
  • Chojnicka-Paszun, A., de Jongh, H. H. J. and de Kruif, C. G. (2012). Sensory perception and lubrication properties of milk: Influence of fat content. Int. Dairy J. 26(1):15–22.
  • Chung, C., Degner, B. and McClements, D. J. (2012a). Instrumental mastication assay for texture assessment of semi-solid foods: Combined cyclic squeezing flow and shear viscometry. Food Res. Int. 49(1):161–169.
  • Chung, C., Degner, B. and McClements, D. J. (2012b). Rheology and microstructure of bimodal particulate dispersions: Model for foods containing fat droplets and starch granules. Food Res. Int. 48(2):641–649.
  • Chung, C., Degner, B. and McClements, D. J. (2013). Physicochemical characteristics of mixed colloidal dispersions: Models for foods containing fat and starch. Food Hydrocolloids. 30(1):281–291.
  • Ciron, C. I. E., Gee, V. L., Kelly, A. L. and Auty, M. A. E. (2010). Comparison of the effects of high-pressure microfluidization and conventional homogenization of milk on particle size, water retention and texture of non-fat and low-fat yogurts. Int. Dairy J. 20:314–320.
  • Ciron, C. I. E., Gee, V. L., Kelly, A. L. and Auty, M. A. E. (2011). Effect of microfluidization of heat-treated milk on rheology and sensory properties of reduced fat yogurt. Food Hydrocolloids. 25:1470–1476.
  • Ciron, C. I. E., Gee, V. L., Kelly, A. L. and Auty, M. A. E. (2012). Modifying the microstructure of low-fat yoghurt by microfluidisation of milk at different pressures to enhance rheological and sensory properties. Food Chem. 130(3):510–519.
  • Clegg, S. M., Kilcast, D. and Arazi, S. (2003). The structural and compositional basis of creaminess in food emulsion gels. In: Proceedings of the Third International Symposium on Food Rheology and Structure, pp. 373–377. Fischer, P., Marti, I., and Windhab, E. J., Eds.,Laboratory of Food Process Engineering, Zurich, Switzerland.
  • Cohen, M. A., Ellis, S. M., Le Roux CW, Batterham, R. L., Park, A., Patterson, M., Frost, G. S., Ghatei, M. A. and Bloom, S. R. (2003). Oxyntomodulin suppresses appetite and reduces food intake in humans. J. Clin. Endocrinol. Metab. 88:4696–4701.
  • Costell, E., Tarrega, A. and Bayarri, S. (2010). Food acceptance: The role of consumer perception and attitudes. Chemosensory Perception. 3:42–50.
  • Cox, H. M. (2007). Peptide YY: A neuroendocrine neighbor of note. Peptides. 28:345–351.
  • Cummings, D. E. (2006). Ghrelin and the short- and long-term regulation of appetite and body weight. Physiol. Behav. 89:71–84.
  • Cummings, D. E., Weigle, D. S., Frayo, R. S., Breen, P. A., Ma, M. K., Dellinger, E. P. and Purnell, J. Q. (2002). Plasma ghrelin levels after diet-induced weight loss or gastric bypass surgery. N. Engl. J. Med. 346:1623–1630.
  • Dattatreya, B. S., Kamath, A. and Bhat, K. K. (2002). Developments and challenges in flavor perception and measurement—A review. Food Res. Int. 18:223–241.
  • de Bruijne, D. W., Hendrickx, H. A. C. M., Anderliesten, L. and de Looff, J. (1993). Mouthfeel of foods. In: Food Colloids and Polymers: Stability and Mechanical Properties, pp. 204–213. Dickinson E. and Walstra, P. Eds., Royal Society of Chemistry, Cambridge, UK.
  • de Roos, K. B. (2006). How lipids influence flavor perception. In: Food Lipids: Chemistry, Flavor, and Texture, pp. 145–158. Shahidi S. and Weenen, H. Eds., American Chemical Society, Washington, DC.
  • de Wijk, R. A. and Prinz, J. F. (2005). The role of friction in perceived oral texture. Food Qual. Pref. 16(2):121–129.
  • de Wijk, R. A. and Prinz, J. F. (2006). Mechanisms Underlying the role of friction in oral texture. J. Texture Stud. 37:413–427.
  • de Wijk, R. A. and Prinz, J. F. (2007). Fatty versus creamy sensations for custard desserts, white sauces, and mayonnaises. Food Qual. Pref. 18:641–650.
  • de Wijk, R. A., Janssen, A. M. and Prinz, J. F. (2011). Oral movements and the perception of semi-solid foods. Physiol. Behav. 104(3):423–428.
  • de Wijk, R. A., Prinz, J. F. and Engelen, L. (2003). The role of intra-oral manipulation in the perception of sensory attributes. Appetite. 40:1–7.
  • de Wijk, R. A., Prinz, J. F. and Janssen, A. M. (2006). Explaining perceived oral texture of starch-based custard desserts from standard and novel instrumental tests. Food Hydrocolloids. 20:24–34.
  • Del Prete, A., Iadevaia, M. and Loguercio  . (2012). The role of gut hormones in controlling the food intake. What is their role in emerging diseases? Endocrinologia Y Nutricion. 59(3):197–206.
  • Dellow, P. G. and Lund, J. P. (1971). Evidence for central timing of rhythmical mastication. J. Physiol. 215:1–13.
  • Demetriades, K., Coupland, J. N. and McClements, D. J. (1997a). Physical properties of whey protein stabilized emulsions as related to pH and NaCl. J. Food Sci. 62(2):342–347.
  • Demetriades, K., Coupland, J. N. and McClements, D. J. (1997b). Physicochemical properties of whey protein-stabilized emulsions as affected by heating and ionic strength. J. Food Sci. 62(3):462–467.
  • Dickinson, E. (1992). Introduction to Food Colloids. Royal Society of Chemistry, Cambridge, United Kingdom.
  • Dickinson, E. (2003). Hydrocolloids at interfaces and the influence on the properties of dispersed systems. Food Hydrocolloids. 17(1):25–39.
  • Dickinson, E. (2006). Colloid science of mixed ingredients. Soft Matter. 2(8):642–652.
  • Dickinson, E. (2010). Flocculation of protein-stabilized oil-in-water emulsions. Colloids Surf., B. 81(1):130–140.
  • Dickinson, E. (2011). Double emulsions stabilized by food biopolymers. Food Biophys. 6:1–11.
  • Dickinson, E. (2012). Emulsion gels: The structuring of soft solids with protein-stabilized oil droplets. Food Hydrocolloids. 28(1):224–241.
  • Dickinson, E. and Patino, J. M. R. (1999). Food emulsions and foams: Interfaces, interactions and stability. Royal Society of Chemistry, London.
  • Dijksterhuis, G. and Piggott, J. R. (2000). Dynamic methods of sensory analysis. Trends Food Sci. Technol. 11:284–290.
  • Dilzer, A. and Park, Y. (2012). Implication of conjugated linoleic acid (CLA) in human health. Crit. Rev. Food Sci. Nutr. 52:488–513.
  • Doyen, K., Carey, M., Linforth, R. S. T. and Taylor, A. J. (2001). Volatile release from an emulsion: Headspace and in-mouth studies. J. Agric. Food Chem. 49:804–810.
  • Drazen, D. L., Vahl, T. P., D’Alessio, D. A., Seeley, R. J. and Woods, S. C. (2006). Effects of a fixed meal pattern on ghrelin secretion: Evidence for a learned response independent of nutrient status. Endocriology. 147:23–30.
  • Dresselhuis, D. M., de Hoog, E. H. A., Cohen Stuart, M. A., Vingerhoeds, M. H. and van Aken, G. A. (2008). The occurence of in-mouth coalescence of emulsion droplets in relation to perception of fat. Food Hydrocolloids. 22:1170–1183.
  • Dresselhuis, D. M., de Hoog, E. H. A., Stuart, M. A. C., Vingerhoeds, M. H. and van Aken, G. A. (2008). The occurrence of in-mouth coalescence of emulsion droplets in relation to perception of fat. Food Hydrocolloids. 22(6):1170–1183.
  • Dresselhuis, D. M., Klok, H. J., Cohen Stuart, M. A., de Vries, R. J., van Aken, G. A. and de Hoog, E. H. A. (2007). Tribology of O/W emulsions under mouth-like conditions: Determinants of friction. Food Biophys. 2:158–171.
  • Dresselhuis, D. M., Stuart, M. A. C., van Aken, G. A., Schipper, R. G. and de Hoog, E. H. A. (2008). Fat retention at the tongue and the role of saliva: Adhesion and spreading of ‘protein-poor’ versus ‘protein-rich’ emulsions. J. Colloid. Interface Sci. 321(1):21–29.
  • Dresselhuis, D. M., van Aken, G. A., de Hoog, E. H. A. and Cohen Stuart, M. A. (2008). Direct observation of adhesion and spreading of emulsion droplets at solid surfaces. Soft Matter. 4:1079–1085.
  • Druaux, C. and Voilley, A. (1997). Effect of food composition and microstructure on volatile flavor release. Trends Food Sci. Technol. 8(11):364–368.
  • Duran, L. and Costell, E. (1999). Perception of taste. Physicochemical and psychophysical aspects. Food Sci. Technol Int. 5:299–309.
  • Eckel, R. H., Fujimoto, W. Y. and Brunzell, J. D. (1979). Gastric inhibitory polypeptide enhanced lipoprotein lipase activity in cultured preadipocytes. Diabetes. 28:1141–1142.
  • Elmore, J. S., Heymann, H., Johnson, J. and Hewett, J. E. (1999). Preference mapping: Relating acceptance of “creaminess” to a descriptive sensory map of a semi-solid. Food Qual. Pref. 10:465–475.
  • Engelen, L., de Wijk, R. A., Prinz, J. F., Jansen, A. M. and Bosman, F. (2002). The effect of oral and product temperature on the perception of temperature in liquids and semi-solids. Eur. J. Oral Sci. 110:412–416.
  • Engmann, J., Servais, C. and Burbidge, A. S. (2005). Squeeze flow theory and applications to rheometry: A review. J. Non-Newtonian Fluid Mech. 132:1–27.
  • Essah, P. A., Levy, J. R., Sistrun, S. N., Kelly, S. M. and Nestler, J. E. (2007). Effect of macronutrient composition on postprandial peptide YY levels. J. Clin. Endocrinol. Metab. 92:4052–4055.
  • Fischer, U., Boulton, R. B. and Noble, A. C. (1994). Physiological factors contributing to the variability of sensory assessments: Relationship between salivary flow rate and temporal perception of gustatory stimuli. Food Qual. Pref. 5:55–64.
  • Flatt, J. P., Ravussin, E., Acheson, K. J. and Jequier, E. (1985). Effects of dietary fat on postprandial substrate oxidation and on carbohydrate and fat balances. J. Clin. Invest. 76:1019–1024.
  • Flint, A., Helt, B., Raben, A., Toubro, S. and Astrup, A. (2003). Effects of different dietary fat types on postprandial appetite and energy expenditure. Obes. Res. 11:1449–1455.
  • Foegeding, E. A., Daubert, C. R., Drake, M. A., Essick, G., Trulsson, M., Vinyard, C. J. and Van de Velde, F. (2011). A comprehensive approach to understanding textural properties of semi- and soft-solid foods. J. Texture Stud. 42(2):103–129.
  • Foster, K. D., Grigor, J. M. V., Cheong, J. N., Yoo, M. J. Y., Bronlund, J. E. and Morgenstern, M. P. (2011a). The role of oral processing in dynamic sensory perception. J. Food Sci. 76(2):R49–R61.
  • Foster, K. D., Grigor, J. M. V., Cheong, J. N., Yoo, M. J. Y., Bronlund, J. E. and Morgenstern, M. P. (2011b). The role of oral processing in dynamic sensory perception. J. Food Sci. 76(2):R49–R61.
  • Fouad, F. M., Mamer, O. A., Sauriol, F., Shahidi, F. and Ruhenstroth-Bauer, G. (2001). Olestra versus natural lipids: A critical review. In: Food Flavors and Chemistry: Advances of the New Millenium, pp. 17–29. Spanier, A. M., Shahidi, F., Parliment, T. H., Mussinan, C., Ho, C. T. and Contis, E. T., Eds., Royal SOC Chemistry, Cambridge.
  • Frank, D. C., Eyres, G. T., Piyasiri, U. and Delahunty, C. M. (2012). Effect of food matrix structure and composition on aroma release during oral processing using in vivo monitoring. Flavour Fragrance J. 27(6):433–444.
  • Frank, D., Appelqvist, I. A. M., Piyasiri, U., Wooster, T. J. and Delahunty, C. (2011b). Proton transfer reaction mass spectrometry and time intensity perceptual measurement of flavor release from lipid emulsions using trained human subjects. J. Agric. Food Chem. 59:4891–4903.
  • Frank, D., Appelqvist, I., Piyasiri, U., Wooster, T. J. and Delahunty, C. (2011a). Proton transfer reaction mass spectrometry and time intensity perceptual measurement of flavor release from lipid emulsions using trained human subjects. J. Agric. Food Chem. 59(9):4891–4903.
  • French, S. and Robinson, T. (2003). Fats and food intake. Curr. Opin. Clin. Nutr. Metab. Care. 6:629–634.
  • French, S. J. and Cecil, J. E. (2001). Oral, gastric and intestinal influences on humans feeding. Physiol. Behav. 74:729–734.
  • French, S. J., Conlon, C. A., Mutuma, S. T., Arnold, M., Read, N. W., Meijer, G. and Francis, J. (2000). The effects of intestinal infusion of long-chain fatty acids on food intake in humans. Gastroenterology. 119:943–948.
  • Friberg, S., Larsson, K. and Sjoblom, J. (2004). Food Emulsions, (4th ed. Marcel Dekker, New York.
  • Frost, M. B. and Janhoj, T. (2007). Understanding creaminess. Int. Dairy J. 17(11):1298–1311.
  • Frost, M. B., Dijksterhuis, G. and Martens, M. (2001). Sensory perception of fat in milk. Food Qual. Pref. 12:327–336.
  • Garrec, D. A. and Norton, I. T. (2012). Understanding fluid gel formation and properties. J. Food Eng. 112(3):175–182.
  • Garrec, D. A., Frasch-Melnik, S., Henry, J. V. L., Spyropoulos, F. and Norton, I. T. (2012). Designing colloidal structures for micro and macro nutrient content and release in foods. Faraday Discuss. 158:37–49.
  • Genovese, D. B., Lozano, J. E. and Rao, M. A. (2007). The rheology of colloidal and noncolloidal food dispersions. J. Food Sci. 72(2):R11–R20.
  • Gibbs, B. F., Kermasha, S., Alli, I. and Mulligan, C. N. (1999). Encapsulation in the food industry: A review. Int. J. Food Scis and Nutr. 50(3):213–224.
  • Gilbertson, T. A., Damak, S. and Margolskee, R. F. (2000). The molecular physiology of taste transduction. Curr. Opin. Neurobiol. 10:519–527.
  • Gil-Campos, M., Aguilera, C. M., Canete, R. and Gil, A. (2006). Ghrelin: A hormone regulating food intake and energy homeostasis. Br. .J Nutr. 96:201–226.
  • Gioielli, L. A., Simoes, I. S. and Rodrigues, J. N. (2003). Crystal morphology and interactions of binary and ternary mixtures of hydrogenated fats. J. Food Eng. 57(4):347–355.
  • Given, P. S. (2009). Encapsulation of Flavors in Emulsions for Beverages. Curr. Opin. Colloid Interface Sci. 14(1):43–47.
  • Gonzalez-Tomas, L. and Costell, E. (2006). Relation between consumers’ perceptions of color and texture of dairy desserts and instrumental measurements using a generalized procrustes analysis. J. Dairy Sci. 89:4511–4519.
  • Gonzalez-Tomas, L., Bayarri, S., Taylor, A. J. and Costell, E. (2008). Rheology, flavor release and perception of low-fat dairy desserts. Int. Dairy J. 18:858–866.
  • Grunert, K. G. (2006). How changes in consumer behavior and retailing affects competence requirements for food producers and processors. EcoEconomia Agraria y Recursos Naturales. 6:3–22.
  • Guinard, J. X. and Mazzucchelli, R. (1996). The sensory perception of texture and mouthfeel. Trends Food Sci. Technol. 7:213–219.
  • Guzey, D. and McClements, D. J. (2006). Formation, stability and properties of multilayer emulsions for application in the food industry. Adv. Colloid Interface Sci. 128:227–248.
  • Guzey, D. and McClements, D. J. (2007). Impact of electrostatic interactions on formation and stability of emulsions containing oil droplets coated by beta-lactoglobulin-pectin complexes. J. Agric. Food Chem. 55(2):475–485.
  • Halford, J. C. G. and Harrold, J. A. (2012). Satiety-enhancing products for appetite control: science and regulation of functional foods for weight management. Proc. Nutr. Soc. 71:350–362.
  • Havel, P. J. (2001). Peripheral signals conveying metabolic information to the brain: Short-term and long-term regulation of food intake and energy homeostasis. Exp. Biol. Med. 226:963–977.
  • Hiiemae, K., Heath, M. R., Heath, G., Kazazoglu, E., Murry, J. and Sapper, D. (1996). Natural bites, food consistency and feeding behavior in man. Arch. Oral Biol. 41:175–189.
  • Himms-Hagen, J. (1984). Thermogenesis in brown adipose tissue as an energy buffer—Implications for obesity. N. Engl. J. Med. 311:1549–1558.
  • Hoefkens, C., Verbeke, W. and Van Camp, J. (2011). Europeans consumers’ perceived importance of qualifying and disqualifying nutrients in food choices. Food Qual. Pref. 22:550–558.
  • Hosoda, H., Kojima, M., Matsuo, H. and Kangawa, K. (2000). Ghrelin and des-acyl ghrelin: Two major forms of rat ghrelin peptide in gastrointestinal tissue. Biochem. Biophys. Res. Commun. 279:909–913.
  • Hotrum, N. E., Cohen Stuart, M. A., van Vliet, T., Avino, S. F. and van Aken, G. A. (2005). Elucidating the relationship between the spreading coefficient, surface-mediated partial coalescence and the whipping time of artificial cream. Colloids Surfaces A: Physicochem. Eng. Aspects. 260:71–78.
  • Hunter, R. J. (1986). In: Foundations of Colloid Science, Vol. 1. Oxford University Press, Oxford.
  • Hutchings, J. B. (1999). In: Food Color and Appearance, 2nd ed. Aspen Publishers, Gaithersburg, MD.
  • Hyson, D., Rutledge, J. C. and Berglund, L. (2003). Postprandial lipemia and cardiovascular disease. Curr. Atheroscler. Rep. 5:437–444.
  • John, H., Luo, M. and Wei, J. (2012). Food appearance and expectations. In: Color in Food, pp. 3–10. CRC Press, Boca Raton, Florida.
  • Kahler, A., Zimmerman, M. and Langhans, W. (1999). Suppresion of hepatic fatty acid oxidation and food intake in men. Nutrition. 15:819–828.
  • Kamphuis, M. M. U. W., Mela, D. J. and Westerterp-Plantenga, M. S. (2003). Diacylglycerols affect substrate oxidation and appetite in humans. Am. J. Clin. Nutr. 77:1133–1139.
  • Karaca, O. B., Guven, M., Yasar, K., Kaya, S. and Kahyaoglu, T. (2009). The functional, rheological and sensory characteristics of ice creams with various fat replacers. Int. J. Dairy Technol. 62(1):93–99.
  • Karhunen, L. J., Juvonen, K. R., Huotari, A., Purhonen, A. K. and Herzig, K. H. (2008). Effect of protein, fat, carbohydrate and fibre on gastrointestinal peptide release in humans. Regul. Pept. 149:70–78.
  • Kasapis, S., Morris, E. R., Norton, I. T. and Brown, C. T. (1993). Phase equilibria and gelation in gelatin/maltodextrin systems—Part III: Phase separation in mixed gels. Carbohydr. Polymers. 21:261–268.
  • Kasapis, S., Morris, E. R., Norton, I. T. and Clark, A. H. (1993). Phase equilibria and gelation in gelatin/maltodextrin systems—Part I: Gelation of individual components. Carbohydr. Polymers. 21:243–248.
  • Katsuura, G., Asakawa, A. and Inui, A. (2002). Roles of pancreatic polypeptide in regulation of food intake. Peptides. 23:323–329.
  • Kemp, S. E., Hollowood, T. and Hort, J. (2009). Sensory Evaluation: A Practical Handbook. Wiley-Blackwell, UK.
  • Kilcast, D. and Clegg, S. (2002). Sensory perception of creaminess and its relationship with food structure. Food Qual. Pref. 13:609–623.
  • Kim, H. J., Decker, E. A. and McClements, D. J. (2002a). Impact of protein surface denaturation on droplet flocculation in hexadecane oil-in-water emulsions stabilized by beta-lactoglobulin. J. Agric. Food Chem. 50(24):7131–7137.
  • Kim, H. J., Decker, E. A. and McClements, D. J. (2002b). Role of postadsorption conformation changes of beta-lactoglobulin on its ability to stabilize oil droplets against flocculation during heating at neutral pH. Langmuir. 18(20):7577–7583.
  • Kim, K. H. and Park, Y. (2011). Food components with anti-obesity effect. Annu. Rev. Food Sci. Technol. 2:237–257.
  • Kissileff, H. R., Carretta, J. C., Geliebter, A. and Pi-Sunyer, F. X. (2003). Cholecystokinin and stomach distension combine to recude food intake in humsn. Am. J. Physiol. Regul. Integr. Comp. Physiol. 285:R992–R998.
  • Kissileff, H. R., Pi-Sunyer, F. X., Thompton, J. and Smith, G. P. (1981). C-terminal octapeptide of cholecystokinin decreases food intake in man. Am. J. Clin. Nutr. 34:154–160.
  • Kojima, M., Hosoda, H., Date, Y., Nakazato, M., Matsuo, H. and Kangawa, K. (1999). Ghrelin is a growth-hormone-releasing acylated peptide form stomach. Nature. 402:656–660.
  • Kokini, J. L. (1987). The physical basis of liquid food texture and texture-taste interactions. J. Food Eng. 6:51–81.
  • Kokini, J. L. (1994). Predicting the rheology of food biopolymers using constitutive models. Carbohydr. Polym. 25:319–329.
  • Kokini, J. L. and Cussler, E. L. (1983). Predicting the texture of liquid and melting semi-solid foods. J. Food Sci. 48:1221–1225.
  • Kokini, J. L., Kadane, J. B. and Cussler, E. L. (1977). Liquid texture perceived in the mouth. J. Texture Stud. 8:195–218.
  • Larson, R. G. (1999). The Structure and Rheology of Complex Fluids. Oxford University Press, Oxford,
  • Larsson, M. and Larsson, K. (1997). Neglected aspects of food flavor perception. Colloids Surf. A: Physicochem. Eng. Aspects. 123:651–655.
  • Le Reverend, B. J. D., Norton, I. T., Cox, P. W. and Spyropoulos, F. (2010). Colloidal aspects of eating. Curr. Opin. Colloid Interface Sci.. 15:84–89.
  • Lee, S., Heuberger, M., Rousset, P. and Spencer, N. D. (2004). A tribological model for chocolate in the mouth: general implications for slurry-lubricated hard/soft sliding counterfaces. Tribol. Lett. 16:239–249.
  • Lieverse, R. J., Jansen, J. B., Masclee, A. A. and Lamers, C. B. (1995). Satiety effects of a physiological dose of cholecystokinin in humans. Gut. 36:176–179.
  • Lillford, P. (2000). The materials science of eating and food breakdown. MRS Bull. 25:38–43.
  • Linforth, R. S. T. (2000). Developments in instrumental techniques for food flavor evaluation: future prospects. J. Sci. Food Agri. 80:2044–2048.
  • Little, T. J., Horowitz, M. and Feinle-Bisset, C. (2005). Role of cholecystokinin in appetite control and body weight regulation. Obes. Rev. 6:297–306.
  • Liu, H., Xu, X. M. and Guo, S. D. (2007). Rheological, texture and sensory properties of low-fat mayonnaise with different fat mimetics. LWT - Food Sci. Technol. 40:946–954.
  • Lobato-Calleros, C., Recillas-Mota, M. T., Espinosa-Solares, T., Alvarez-Ramirez, J. and Vernon-Carter, E. J. (2009). Microstructural and rheological properties of low-fat stirred yogurts made with skim milk and multiple emulsions. J. Texture Stud. 40:657–675.
  • Lobato-Calleros, C., Reyes-Hernandez, J., Beristain, C. I., Hornelas-Uribe, Y., Sanchez-Garcia, J. and Vernon-Carter, E. J. (2007). Microstructure and texture of white fresh cheese made with canola oil and whey protein concentrate in partial or total replacement of milk fat. Food Res. Int. 40:529–537.
  • Lobato-Calleros, C., Rodriquez, E., Sandoval-Castilla, O., Vernon-Carter, E. J. and Alvarez-Ramirez, J. (2006). Reduced-fat white fresh cheese-like products obtained from W1/O/W2 multiple emulsions: Viscoelastic and high-resolution image analyses. Food Res. Int. 39:678–685.
  • Lobato-Calleros, C., Sosa-Perez, A., Rodriquez-Tafoya, J., Sandoval-Castilla, O., Perez-Alonso, C. and Vernon-Carter, E. J. (2008). Structural and textural characteristics of reduced-fat cheese-like products made from W1/O/W2 emulsions and skim milk. LWT - Food Sci. Technol. 41:1847–1856.
  • Loren, N., Langton, M. and Hermansson, A. M. (2007). Confocal fluorescence microscopy (CLSM) for food structure characterization. In: Understanding and Controlling the Microstructure of Complex Foods, pp. 232–260, McClements, D. J., Ed., Woodhead Publishing Limited, Cambridge.
  • Lucca, P. A. and Tepper, B. J. (1994). Fat replacers and the functionality of fat in foods. Trends in Food Sci. Technol. 5(1):12–19.
  • Lynch, J., Liu, Y. H. and MacFie, H. J. H. (1993). A time-intensity study of the effect of oil mouthcoatings on taste perception. Chem. Senses. 18(2):121–129.
  • Macosko, C. W. (1994). In: Rheology: Principles, Measurements and Applications. Wiley/VCH, New York.
  • Madene, A., Jacquot, M., Scher, J. and Desobry, S. (2006). Flavour encapsulation and controlled release - a review. Int. J. Food Sci. Technol. 41(1):1–21.
  • Malone, M. E. and Appelqvist, I. A. M. (2003). Gelled emulsion particles for the controlled release of lipophilic volatiles during eating. J. Control. Release. 90:227–241.
  • Malone, M. E., Appelqvist, I. A. M. and Norton, I. T. (2003a). Oral behavior of food hydrocolloids and emulsions. Part 1. Lubrication and deposition considerations. Food Hydrocolloids. 17:763–773.
  • Malone, M. E., Appelqvist, I. A. M. and Norton, I. T. (2003b). Oral behavior of food hydrocolloids and emulsions. Part 2. Taste and aroma release. Food Hydrocolloids. 17:775–784.
  • Malone, M. E., Appelqvist, I. A. M., Goff, T. C., Homan, J. E. and Wilkins, J. P. G. (2000). A novel approach to the selective control of lipophilic flavor release in low fat foods. In: Flavor Release, pp. 212–227. Roberts, D. D. and Taylor, A. J. Eds., American Chemical Society, Washington, DC.
  • Mao, Y. Y. and McClements, D. J. (2012a). Fabrication of reduced fat products by controlled heteroaggregation of oppositely charged lipid droplets. J. Food Sci. 77(5):E144–E152.
  • Mao, Y. Y. and McClements, D. J. (2012b). Fabrication of viscous and paste-like materials by controlled heteroaggregation of oppositely charged lipid droplets. Food Chem. 134(2):872–879.
  • Mao, Y. Y. and McClements, D. J. (2012c). Modulation of emulsion rheology through electrostatic heteroaggregation of oppositely charged lipid droplets: Influence of particle size and emulsifier content. J. Colloid. Interface Sci. 380:60–66.
  • Marciani, L., Faulks, R., Wickham, M. S. J., Bush, D., Pick, B., Wright, J., Cox, E. F., Fillery-Travis, A., Gowland, P. A. and Spiller, R. C. (2009). Effect of intragastric acid stability of fat emulsions on gastric emptying, plasma lipid profile and postprandial satiety. Br. J. Nutr. 101(6):919–928.
  • Marciani, L., Wickham, M. S. J., Bush, D., Faulks, R., Wright, J., Fillery-Travis, A. J., Spiller, R. C. and Gowland, P. A. (2006). Magnetic resonance imaging of the behaviour of oil-in-water emulsions in the gastric lumen of man. Br. J. Nutr. 95(2):331–339.
  • Marciani, L., Wickham, M., Singh, G., Bush, D., Pick, B., Cox, E., Fillery-Travis, A., Faulks, R., Marsden, C., Gowland, P. A. and Spiller, R. C. (2006). Delaying gastric emptying and enhancing cholecystokinin release and satiety by using acid stable fat emulsions. Gastroenterology. 130(4):A227–A227.
  • Marciani, L., Wickham, M., Singh, G., Bush, D., Pick, B., Cox, E., Fillery-Travis, A., Faulks, R., Marsden, C., Gowland, P. A. and Spiller, R. C. (2007). Enhancement of intragastric acid stability of a fat emulsion meal delays gastric emptying and increases cholecystokinin release and gallbladder contraction. Am. J. Physiol. Gastrointest. Liver Physiol. 292(6):G1607–G1613.
  • Marinescu, G., Stoicescu, A. and Patrascu, L. (2011). The preparation of mayonnaise containing spent brewer's yeast beta-glucan as a fat replacer. Rom. Biotechnological Lett. 16:6017–6025.
  • Marques, H. M. C. (2010). A review on cyclodextrin encapsulation of essential oils and volatiles. Flavour Fragrance J. 25(5):313–326.
  • Martuscelli, M., Savary, G., Pittia, P. and Cayot, N. (2008). Vapour partition of aroma compounds in strawberry flavoured custard cream and effect of fat content. Food Chem. 108(4):1200–1207.
  • Matalanis, A., Jones, O. G. and McClements, D. J. (2011). Structured biopolymer-based delivery systems for encapsulation, protection, and release of lipophilic compounds. Food Hydrocolloids. 25(8):1865–1880.
  • McClements, D. J. (2000). Comments on viscosity enhancement and depletion flocculation by polysaccharides. Food Hydrocolloids. 14(2):173–177.
  • McClements, D. J. (2002a). Colloidal basis of emulsion color. Curr. Opin. Colloid Interface Sci, 7(5–6):451–455.
  • McClements, D. J. (2002b). Theoretical prediction of emulsion color. Adv Colloid Interface Sci. 97(1–3):63–89.
  • McClements, D. J. (2002c). Theoretical prediction of emulsion color. Adv Colloid Interface Sci. 97:63–89.
  • McClements, D. J. (2004). Protein-stabilized emulsions. Curr. Opin. Colloid Interface Sci. 9(5):305–313.
  • McClements, D. J. (2005). In: Food Emulsions: Principles, Practices, and Techniques, 2nd ed., CRC Press, Boca Raton, FL.
  • McClements, D. J. (2007). Critical review of techniques and methodologies for characterization of emulsion stability. Crit. Rev. Food Sci. Nutr. 47(7):611–649.
  • McClements, D. J. (2010). Emulsion design to improve the delivery of functional lipophilic components. Annu. Rev. Food Sci. Technol. 1:241–269.
  • McClements, D. J. (2012). Crystals and crystallization in oil-in-water emulsions: Implications for emulsion-based delivery systems. Adv. Colloid Interface Sci. 174:1–30.
  • McClements, D. J., Decker, E. A., Park, Y. and Weiss, J. (2009). Structural design principles for delivery of bioactive components in nutraceuticals and functional foods. Crit. Rev. Food Sci. Nutr. 49(6):577–606.
  • McNulty, P. B. and Karel, M. (1973). Factors affecting flavor release and uptake in O/W emulsions: II. Stirred cell studies. J. Food Technol. 8:319–331.
  • Meier, J. J., Goetze, O., Anstipp, J., Hagemann, D., Holst, J. J., Schmidt, W. E., Ballwitz, B. and Nauck, M. A. (2004). Gastric inhibitory polypeptide does not inhibit gastric emptying in humans. Am. J. Physiol.Endocrinol. Metab. 286:E621–E625.
  • Mela, D. J., Langley, K. R. and Martin, N. (1994). Sensory assessment of fat content: effect of emulsion and subject characteristics. Appetite. 22:67–81.
  • Meynier, A., Garillon, A., Lethuaut, L. and Genot, C. (2003). Partition of five aroma compounds between air and skim milk, anhydrous milk fat or full-fat cream. Lait. 83(3):223–235.
  • Miettinen, S. M., Tuorila, H., Piironen, V., Vehkalahti, K. and Hyvonen, L. (2002). Effect of emulsion characteristics on the release of aroma as detected by sensory evaluation, static headspace gas chromatography, and electronic nose. J. Agric. Food Chem. 50:4232–4239.
  • Modzelewska-Kapitula, M. and Klebukowska, L. (2009). Investigation of the potential for using inulin HPX as a fat replacer in yogurt production. Int. J. Dairy Technol. 62:209–214.
  • Moore, P. B., Langley, K. R., Wilde, P. J., Fillery-Travis, A. and Mela, D. J. (1998). Effect of emulsifier type on sensory properties of oil-in-water emulsions. J. Sci. Food Agri. 76:469–476.
  • Moran, T. H. (2009). Gut peptides in the control of food intake. Int. J. Obes. 33(Suppl. 1):S7–S10.
  • Morris, E. R. (1995). Polysaccharide rheology and in-mouth perception. In: Food Polysaccharides and Their Applications, pp. 517–554. Stephen, A. M., Ed., Marcel Dekker, New York, NY.
  • Morris, V. J. (2007). Atomic force microscopy (AFM) techniques for characterizing food structure. In: Understanding and Controlling the Microstructure of Complex Foods, pp. 209–231. McClements, D. J., Ed., Woodhead Publishing Limited, Cambridge.
  • Muccioli, G., Tschop, M., Papotti, M., Deghenghi, R., Heiman, M. and Ghigo, E. (2002). Neuroendocrine and peripheral activities of ghrelin: implications in metabolism and obesity. Eur. J. Pharmacol. 440:235–254.
  • Muller, R. H. and Keck, C. M. (2004). Challenges and solutions for the delivery of biotech drugs—A review of drug nanocrystal technology and lipid nanoparticles. J. Biotechnol. 113(1–3):151–170.
  • Muller, R. H., Mader, K. and Gohla, S. (2000). Solid lipid nanoparticles (SLN) for controlled drug delivery—A review of the state of the art. Eur. J. Pharm. Biopharm. 50(1):161–177.
  • Mun, S. H., Kim, Y. L., Kang, C. G., Park, K. H., Shim, J. Y. and Kim, Y. R. (2009). Development of reduced-fat mayonnaise using 4α GTase-modified rice starch and xanthan gum. Int. J. Biol. Macromol. 44:400–407.
  • Murray, J. M., Delahunty, C. M. and Baxter, I. A. (2001). Descriptive sensory analysis: Past, present and future. Food Res. Int. 34:461–471.
  • Murugesan, R. and Orsat, V. (2012). Spray drying for the production of nutraceutical ingredients—A review. Food Bioprocess Technol. 5(1):3–14.
  • Muschiolik, G. (2007). Multiple emulsions for food use. Curr. Opin. Colloid Interface Sci.. 12:213–220.
  • Nauck, M. A., Bartels, E., Orskov, C., Ebert, R. and Creutzfeldt, W. (1993). Additive insulinotropic effects of exogenous synthetic human gastric inhibitory polypeptide and glucagon-like peptide-1-(7-36) amide infused at near-physiological insulinotropic hormone and glucose concentrations. J. Clin. Endocrinol. Metab. 76:912–917.
  • Nauck, M. A., Niedereichholz, U., Ettler, R., Holst, J. J., Orskov, C., Ritzel, R. and Schmiegel, W. H. (1997). Glucagon-like peptide 1 inhibition of gastric emptying outweighs its insulinotropic effects in healthy humans. Am. J. Physiol. 273:E981–988.
  • Newgard, B. C. and McGarry, J. D. (1995). Metabolic coupling factors in pancreatic-cell signal transduction. Annu. Rev. Biochem.. 64:689–719.
  • Norton, I. T. and Foster, T. J. (2002). Hydrocolloids in real food systems. In: Gums and Stabilisers for the Food Industry, Vol. 11, pp. 187–200. Williams, P. A. and Phillips, G. O., Eds. Cambridge, UK: The Royal Society of Chemistry.
  • Norton, J. E. and Norton, I. T. (2010). Designer colloids-towards healthy everyday foods? Soft Matter. 6(16):3735–3742.
  • Ognean, C. F., Darie, M. and Ognean, N. (2006). Fat replacers - Review. J. Agroaliment. Process. Technol. 12(2):433–442.
  • Overbosch, P., Afterof, W. G. M. and Haring, P. G. M. (1991). Flavor release in the mouth. Food Rev. Int. 7(2):137–184.
  • Pedersen, A. M., Bardow, A., Beier Jensen, S. and Nauntofte, B. (2002). Saliva and gastrointestinal functions of taste, mastication, swallowing and digestion. Oral Dis. 8:117–129.
  • Penna, A. L. B., Gurram, S. and Barbaso-Canovas, G. V. (2006). Effect of high hydrostatic pressure processing on rheological and textural properties of probiotic low-fat yogurt fermented by different starter cultures. J. Food Process Eng. 29:447–461.
  • Piggott, J. R., Simpson, S. J. and Williams, S. A. R. (1998). Sensory Analysis. Int. J. Sci. Technol. 33:7–12.
  • Pineau, N., Schlich, P., Cordelle, S., Mathonniere, C., Issanchou, S., Imbert, A., Rogeaux, M., Etievant, P. and Kosterf, E. (2009). Temporal dominance of sensations: Construction of the TDS curves and comparison with time-intensity. Food Qual. Pref. 20:450–455.
  • Pironi, L., Stanghellini, V., Miglioli, M., Corinaldesi, R., De Giorgio, R., Ruggeri, E., Tosetti, C., Poggioli, G., Morselli Labate, A. M., Monetti, N. et al. (1993). Fat-induced ileal brake in humans: a dose-dependent phenomenan correlated to the plasma levels of peptide YY. Gastroenterology. 105:733–739.
  • Pivk, U., Godinot, N., Keller, C., Antille, N., Juillerat, M. A. and Raspor, P. (2008a). Lipid deposition on the tongue after oral processing of medium-chain triglycerides and impact on the perception of mouthfeel. J. Agric. Food Chem. 56:1058–1064.
  • Pivk, U., Godinot, N., Keller, C., Antille, N., Juillerat, M. A. and Raspor, P. (2008b). Lipid deposition on the tongue after oral processing of medium-chain triglycerides and impact on the perception of Mouthfeel. J. Agric. Food Chem. 56(3):1058–1064.
  • Pivk, U., Ulrih, N. P., Juillerat, M. A. and Raspor, P. (2008). Assessing lipid coating of the human oral cavity after ingestion of fatty foods. J. Agric. Food Chem. 56(2):507–511.
  • Porte, D., Baskin, D. G. and Schwartz, W. M. (2002). Leptin and insulin action in the central nervous system. Nutr. Rev. 60:S20–S29.
  • Prince, D. M. and Welschenbach, M. A. (1998). Olestra: A new food additive. J. Am. Diet. Assoc. 98:565–569.
  • Prinz, J. F., de Wijk, R. A., Huntjens, L. A., Engelen, L. and Polet, I. A. (2007). Is Fat Perception a Thermal Effect? Percept. Mot. Skills. 104:381–386.
  • Prinz, J. F., Huntjens, L. and de Wijk, R. A. (2006a). Instrumental and sensory quantification of oral coatings retained after swallowing semi-solid foods. Arch. Oral Biol. 51(12):1071–1079.
  • Prinz, J. F., Huntjens, L. and de Wijk, R. A. (2006b). Instrumental and sensory quantification of oral coatings retained after swallowing semi-solid foods. Arch. Oral Biol. 51:1071–1079.
  • Quemada, D. and Berli, C. (2002). Energy of interaction in colloids and its implications in rheological modeling. Adv Colloid Interface Sci. 98(1):51–85.
  • Rabe, S., Krings, U. and Berger, R. G. (2003). Influence of oil-in-water emulsion characteristics on initial dynamic flavor release. J. Sci. Food Agri. 83:1124–1133.
  • Rabe, S., Krings, U., Banavara, D. S. and Berger, R. G. (2002). Computerized apparatus for measuring dynamic flavor release from liquid food matrices. J. Agric. Food Chem. 50:6440–6447.
  • Ranc, H., Elkhyat, A., Servais, C., Mac-Mary, S., Launay, B. and Humbert, P. (2006). Friction coefficient and wettability of oral mucosal tissue: Changes induced by a salivary layer. Colloids Surf., A. 276:155–161.
  • Ranc, H., Servais, C., Chauvy, P. F., Debaud, S. and Mischler, S. (2006). Effect of surface structure on frictional behavior of a tongue/palate tribological system. Tribol. Int. 39:1518–1526.
  • Reda, T. K., Geliebter, A. and Pi-Sunyer, F. X. (2002). Amylin, food intake, and obesity. Obes. Res. 10:1087–1091.
  • Rego Costa, A. C., Rosado, E. L. and Soares-Mota, M. (2012). Influence of the dietary intake of medium chain triglycerides on body composition, energy expenditure and satiety: A systematic review. Nutr. Hosp. 27(1):103–108.
  • Rehfeld, J. F. and Hansen, H. F. (1986). Evidence of different processing pathways. J. Biol. Chem. 261:5832–5840.
  • Reich, R. and Urbanski, J. (2004). Experimental support for the dynamic concentration theory of forming an oil reservoir at the inlet of the roll bite by measuring the onset speed of starvation as a function of oil concentration and droplet size. Tribol. Trans. 47(4):489–499.
  • Richardson, R. K., Morris, E. R., Ross-Murphy, S. B., Taylor, A. J. and Dea, I. C. M. (1989). Characterization of the perceived texture of thickened systems by dynamic viscosity measurements. Food Hydrocolloids. 3:175–191.
  • Riener, J., Noci, F., Cronin, D. A., Morgan, D. J. and Lyng, J. G. (2009). The effect of thermosonification of milk on selected physicochemical and microstructural properties of yogurt gels during fermentation. Food Chem. 114:905–911.
  • Riserus, U., Berglund, L. and Vessby, B. (2001). Conjugated linoleic acid (CLA) reduced abdominal adipose tissue in obese middle-aged men with signs of the metabolic syndrome: A randomised controlled trial. Int. J. Obes. 25:1129–1135.
  • Rogacheva, S., Espinosa-Diaz, M. A. and Voilley, A. (1999). Transfer of aroma compounds in water-lipid systems: Binding tendency of β-lactoglobulin. J. Agric. Food Chem. 47:259–263.
  • Roland, A. M., Phillips, L. G. and Boor, K. J. (1999). Effects of fat content on the sensory properties, melting, color, and hardness of ice cream. J. Dairy Sci. 82:32–38.
  • Rousseau, D. (2000). Fat crystals and emulsion stability—A review. Food Res. Int. 33(1):3–14.
  • Sahan, N., Yasar, K., Hayaloglu, A. A., Karaca, O. B. and Kaya, A. (2008). Influence of fat replacers on chemical composition, proteolysis, texture profiles, meltability and sensory properties of low-fat Kashar cheese. J. Dairy Res.. 75(1):1–7.
  • Salles, C., Chagnon, M. C., Feron, G., Guichard, E., Laboure, H., Morzel, M., Semon, E., Tarrega, A. and Yven, C. (2011). In-mouth mechanisms leading to flavor release and perception. Crit. Rev. Food Sci. Nutr. 51(1):67–90.
  • Sandoval-Castilla, O., Lobato-Calleros, C., Aguirre-Mandujano, E. and Vernon-Carter, E. J. (2004). Microstructure and texture of yogurt as influenced by fat replacers. Int. Dairy J. 14(2):151–159.
  • Schenkel, P., Samudrala, R. and Hinrichs, J. (2011). Fat-reduced semi-hard cheese enriched with a microparticulated whey protein concentrate: Impact on cheese-making properties and rheological characteristics. Milchwissenschaft-Milk Sci. Int. 66(1):43–47.
  • Schmitt, C. and Turgeon, S. L. (2011). Protein/polysaccharide complexes and coacervates in food systems. Adv. Colloid Interface Sci. 167(1–2):63–70.
  • Schmitt, C., Sanchez, C., Desobry-Banon, S. and Hardy, J. (1998). Structure and technofunctional properties of protein-polysaccharide complexes: A review. Crit. Rev. Food Sci. Nutr. 38(8):689–753.
  • Schubert, H. and Engel, R. (2004). Product and formulation engineering of emulsions. Chem. Eng. Res. Des. 82(A9):1137–1143.
  • Schwartz, W. M., Woods, S. C., Porte Jr, D., Seeley, R. J. and Baskin, D. G. (2000). Central nervous system control of food intake. Nature. 404:661–671.
  • Serra, M., Trujillo, A. J., Quevedo, J. M., Guamis, B. and Ferragut, V. (2007). Acid coagulation properties and suitability for yogurt production of cows’ milk treated by high-pressure homogenization. Int. Dairy J. 17:782–790.
  • Shama, F. and Sherman, P. (1973). Identification of stimuli controlling the sensory evaluation of viscosity II. Oral methods. J. Texture Stud. 4:111–118.
  • Shamil, S., Wyeth, L. J. and Kilcast, D. (1991). Flavor release and perception in reduced-fat foods. Food Qual. Pref. 3(1):51–60.
  • Shen, R., Luo, S. and Dong, J. (2011). Application of oat dextrine for fat substitute in mayonnaise. Food Chem. 126:65–71.
  • Shojaei, Z., Linforth, R. S. T., Hort, J., Hollowood, T. and Taylor, A. J. (2006). Measurement and manipulation of aroma delivery allows control of perceived fruit flavor in low- and regular-fat milks. Int. J. Food Sci. Technol. 41:1192–1196.
  • Small, D. M. (1991). The effect of glyceride structure on absorption and metabolism. Annu. Rev. Nutr. 11:413–434.
  • Small, D. M. and Prescott, J. (2005). Odor/taste integration and the perception of flavor. Exp. Brain Res. 166:345–357.
  • Smith, D. V. and Margolskee, R. F. (2001). Making sense of taste. Sci. Am. 284:32–39.
  • Smith, R. E., Finley, J. W. and Leveille, G. A. (1994). Overview of SALATRIM, a family of low-calorie fats. J. Agric. Food Chem. 42:432–434.
  • Softly, B. J., Huang, A. S., Finley, J. W., Petersheim, M., Yarger, R. G., Chrysam, M. M., Wieczorek, R. L., Otterburn, M. S., Manz, A. and Templeman, G. J. (1994). Composition of representative SALATRIM fat preparations. J. Agric. Food Chem. 42:461–467.
  • Sorensen, L. B., Cueto, H. T., Andersen, M. T., Bitz, C., Holst, J. J., Rehfeld, J. F. and Astrup, A. (2008). The effect of salatrim, a low-calorie modified triacylglycerol, on appetite and energy intake. Am. J. Clin. Nutr. 87(5):1163–1169.
  • Steinhart, H., Stephan, A. and Bucking, M. (2000). Advances in flavor research, HRC. J. High Res. Chromatogr. 23:489–496.
  • Stokes, J. R., Davies, G. A., Macakova, L., Yakubov, G., Bongaerts, J. and Rossetti, D. (2008). From rheology to tribology: Multiscale dynamics of biofluids, food emulsions and soft matter. In: XVth International Congress on Rheology—The Society of Rheology 80th Annual Meeting, Pts 1 and 2, Vol. 1027, pp. 1171–1173. Co, A., Leal, L. G., Colby, R. H. and Giacomin, A. J., Eds.,. Melville, NY, USA: American Institute of Physics.
  • Stone, H. and Sidel, J. L. (1993). In: Sensory Evaluation Practices, 2nd ed. Academic Press, San Diego, CA.
  • Stone, H. and Sidel, J. L. (2004). Sensory Evaluation Practices. Elsevier Academic Press, Amsterdam.
  • St-Onge, M.-P. and Jones, P. J. H. (2002). Physiological effects of medium-chain tryglycerides: Potential agents in the prevention of obesity. J. Nutr. 132:329–332.
  • St-Onge, M.-P., Ross, R., Parsons, W. D. and Jones, P. J. H. (2003). Medium-chain triglycerides increase energy expenditure and decrease adiposity in overweight men. Obes. Res. 11(3):395–402.
  • Su, H. P., Lien, C. P., Lee, T. A. and Ho, J. H. (2010). Development of low-fat mayonnaise containing polysaccharide gums as functional ingredients. J. Sci. Food Agri. 90:806–812.
  • Suwonsichon, T. and Peleg, M. (1999). Rheological characterization of almost intact and stirred yogurt by imperfect squeezing flow viscometry. J. Sci. Food Agri. 79:911–921.
  • Suzuki, K., Simpson, K. A., Minnion, J. S., Shillito, J. C. and Bloom, S. R. (2010). The role of gut hormones and the hypothalamus in appetite regulation. Endocr. J. 57:359–372.
  • Sylvia, J. (1996). Physical, chemical, and chemical sensory aspects of fat replacement. In: Handbook of Fat Replacers. CRC Press, Boca Raton, FL.
  • Taborsky, G. J. J. (2001). Insulin and glucagon secretion in vivo and its neural control. In: Handbook of Physiology, pp. 153–176. Jefferson, L. S., Cheerington, A. D. and Goodman, H. M., Eds., Oxford University Press, Inc., New York.
  • Tadros, T. (2004). Application of Rheology for assessment and prediction of the long-term physical stability of emulsions. Adv Colloid Interface Sci. 108–109:227–258.
  • Talbot, G. (2011). In: Reducing Saturated Fats in Foods. Woodhead Publishing, Oxford.
  • Taylor, A. J. (1996). Volatile flavor release from foods during eating. Crit. Rev. Food Sci. Nutr. 36(8):765–784.
  • Taylor, A. J. and Linforth, R. S. T. (1996). Flavor release in the mouth. Trends in Food Sci. Technol. 33:444–448.
  • Taylor, A. J. and Linforth, R. S. T. (2000). Techniques for measuring volatile release in vivo during consumption of food. In: Flavor Release, pp. 8–21. Roberts, D. D. and Taylor, A. J., Eds., American Chemical Society, Washington, DC.
  • Tchuenbou-Magaia, F. L. and Cox, P. W. (2011). Tribological study of suspensions of cysteine-rich protein stabilized microbubbles and subsequent triphasic A/O/W emulsions. J. Texture Stud. 42:185–196.
  • Tchuenbou-Magaia, F. L., Al-Rifai, N., Mohamed-Ishak, N. E., Norton, I. T. and Cox, P. W. (2011). Suspensions of air cells with cysteine-rich protein coats: Air-filled emulsions. J. Cell. Plastics. 47:217–232.
  • Tchuenbou-Magaia, F. L., Norton, I. T. and Cox, P. W. (2009). Hydrophobins stabilized air-filled emulsions for the food industry. Food Hydrocolloids. 23:1877–1885.
  • Terpstra, M. E. J., Janssen, A. M. and van der Linden, E. (2007). Exploring imperfect squeezing flow measurements in a teflon geometry for semisolid foods. J. Food Sci. 72:E492–E502.
  • Terpstra, M. E. J., Jellema, R. H., Janssen, A. M., de Wijk, R. A., Prinz, J. F. and van der Linden, E. (2009). Prediction of texture perception of mayonnaises from rheological and novel instrumental measurements. J. Texture Stud. 40:82–108.
  • Thexton, A. and Hiiemae, K. M. (1997). The effect of food consistency upon jaw movement in the macaque; a cineradiographic study. J. Dent. Res. 76:552–560.
  • Tieu, A. K. and Kosasih, P. B. (2007). Experimental and numerical study of O/W emulsion lubricated strip rolling in mixed film regime. Tribol. Lett. 25(1):23–32.
  • Togashi, M., Morita, A. and Nakazawa, F. (2000). Rhythmic and irregular movement of the first molar while eating food with different textures. J. Texture Stud. 31:257–271.
  • Totora, G. J. and Grabowski, S. R. (1999). In: Principles of Anatomy and Physiology, 9th ed. John Wiley and Sons Inc., New York.
  • van Aken, G. A. (2004). Coalescene mechanisms in protein-stabilized emulsion. In: Food Emulsions, 4th ed.. Friberg, S., Larsson, K., and Sjoblom, J., Eds., Marcel Dekker, New York.
  • van Aken, G. A. (2007). Relating food microstructure to sensory quality. In: Understanding and Controlling the Microstructure of Complex Foods, pp. 449–482. McClements, D. J., Ed., Woodhead Publishing Limited, Cambridge.
  • van Aken, G. A. (2010). Modelling texture perception by soft epithelial surfaces. Soft Matter. 6(5):826–834.
  • van Aken, G. A., Vingerhoeds, M. H. and de Wijk, R. A. (2011). Textural perception of liquid emulsions: Role of oil content, oil viscosity and emulsion viscosity. Food Hydrocolloids. 25(4):789–796.
  • van der Bilt, A. (2009). Oral Physiology, Mastication and Food Perception. In: Designing Functional Foods: Measuring and Controlling Food Structure Breakdown and Nutrient Absorption, pp. 3–37. McClements, D. J. and Decker, E. A., Eds., Woodhead Publishing Limited, Cambridge.
  • van der Bilt, A., Engelen, L., Pereira, L. J., van der Glas, H. W. and Abbink, J. H. (2006). Oral physiology and mastication. Physiol. Behav. 89(1):22–27.
  • van der Lely, A. J., Tschop, M., Heiman, M. L. and Ghigo, E. (2004). Biological, physiological, pathophysiological, and pharmacological aspects of ghrelin. Endocr. Rev. 25:426–457.
  • van Vliet, T. (2002). On the relation between texture perception and fundamental mechanical parameters for liquids and time dependent solids. Food Qual. Pref. 13:227–236.
  • van Wymelbeke, V., Himaya, A., Louis-Sylvestre, J. and Fantino, M. (1998). Influence of medium-chain and long-chain triacylglycerols on the control of food intake in men. Am. J. Clin. Nutr. 68:226–234.
  • Vingerhoeds, M. H., de Wijk, R. A., Zoet, F. D., Nixdorf, R. R. and van Aken, G. A. (2008). How emulsion composition and structure affect sensory perception of low-viscosity model emulsions. Food Hydrocolloids. 22(4):631–646.
  • Walstra, P. (1987). Fat Crystallization. In: Food Structure and Behavior, Blanshard, J. M. V. and Lillford, P., Eds., Academic Press, London.
  • Walstra, P. (1993). Principles of emulsion formation. Chem. Eng. Sci. 48:333.
  • Walstra, P. (2003). Physical Chemistry of Foods. Marcel Decker, New York.
  • Weenen, H., van Gemert, L. J., van Doorn, J. M., Duksterhuis, G. B. and de Wijk, R. A. (2003). Texture and mouthfeel of semisolid foods: Commercial mayonnaises, dressings, custard desserts and warm sauces. J. Texture Stud. 34:159–179.
  • Weir, A., Westerhoff, P., Fabricius, L., Hristovski, K. and von Goetz, N. (2012). Titanium dioxide nanoparticles in food and personal care products. Env. Sci. Technol. 46(4):2242–2250.
  • Wendin, K., Aaby, K., Edris, A., Ellekjaer, M. R., Albin, R., Bergenstahl, B., Johansson, L., Willers, E. P. S. and Solheim, R. (1997). Low-fat maynonnaise: Influences of fat content, aroma compounds and thickeners. Food Hydrocolloids. 11(1):87–99.
  • Williams, S. H., Wright, B. W., Truong, V. D., Daubert, C. R. and Vinyard, C. J. (2005). Mechanical properties of foods used in experimental studies of primate masticatory function. Am. J. Primatol. 67:329–346.
  • Wissing, S. A., Kayser, O. and Muller, R. H. (2004). Solid lipid nanoparticles for parenteral drug delivery. Adv. Drug Deliv. Rev. 56(9):1257–1272.
  • Woda, A., Foster, K., Mishellany, A. and Peyron, M. A. (2006). Adaptation of healthy mastication to factors pertaining to the individual or to the food. Physiol. Behav. 89:28–35.
  • Yackinous, C. and Guinard, J. X. (2000). Flavor manipulation can enhance the impression of fat in some foods. J. Food Sci. 65(5):909–914.
  • Yamada, Y., Yamamura, K. and Inoue, M. (2005). Coordination of cranial motorneurons during mastication. Respir. Physiol. Neurobiol. 147:177–189.
  • Ye, A. Q. (2008). Complexation between milk proteins and polysaccharides via electrostatic interaction: principles and applications—A review. Int. J. Food Sci. Technol. 43(3):406–415.
  • Yilsay, T. O., Yilmaz, L. and Bayizit, A. A. (2006). The effect of using a whey protein fat replacer on textural and sensory characteristics of low-fat vanilla ice cream. Eur. Food Res. Technol. 222(1–2):171–175.

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