COLLOIDAL, TRIBOLOGICAL AND SENSORY PROPERTIES OF ORAL NUTRITIONAL SUPPLEMENTS

Main Article Content

F. BOT
S.V. CROWLEY
J.J. O’SULLIVAN
M.G. O’SULLIVAN
J.A. O’MAHONY

Keywords

colloidal stability, oral nutritional supplement, tribology, sensory properties

Abstract

This study aims to evaluate the physicochemical and sensory properties of oral nutritional supplements (ONSs). High physical stability was measured in ONSs with mean particle sizes <0.33 um and viscosity >19.3 mPa·s. ONSs formulated with dairy-soy protein mixtures displayed low friction coefficients, whereas ONSs containing dairy proteins alone had high friction coefficient values in the boundary regime. Sensory analysis revealed low to medium liking across the products and the highest preference was found in samples with the highest perceived ‘sweetness’, ‘vanilla aroma’ and ‘thickness’. The results will underpin the formulation of novel ONSs with good physical stability and sensory acceptability.
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References

Akhtar M., Stenzel J., Murray B.S. and Dickinson E. 2005. Factors affecting the perception of creaminess of oil-in-water emulsions. Food Hydrocoll. 19:521-526.

Akhtar M., Murray B.S. and Dickinson E. 2006. Perception of creaminess of model oil-in-water dairy emulsions: Influence of the shear-thinning nature of a viscosity-controlling hydrocolloid. Food Hydrocoll. 20:839-847.

Anema S.G., Lowe E.K., Lee S.K. and Klostermeyer H. 2014. Effect of the pH of skim milk at heating on milk concentrate viscosity. Int. Dairy J. 39:336-343.

Batchelor H., Venables R., Marriott J. and Mills T. 2015. The application of tribology in assessing texture perception of oral liquid medicines. Int. J. Pharm. 479:277–281.

Camilo M.E. 2003. Disease-related Malnutrition: An Evidence-based approach to treatment. Clin. Nutr. 22:585.

Campbell C.L., Foegeding E.A. and van de Velde F. A. 2017. Comparison of the lubrication behavior of whey protein model foods using tribology in linear and elliptical movement. J. Texture Stud. 48:335-341.

Chen B. and O’Mahony J.A. 2016. Impact of glucose polymer chain length on heat and physical stability of milk protein-carbohydrate nutritional beverages. Food Chem. 211:474-482.

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. 26:15-22.

Crowley S.V., Dowling A.P., Caldeo V., Kelly A.L. and O’Mahony J.A. 2016. Impact of a-lactalbumin: B-lactoglobulin ratio on the heat stability of model infant milk formula protein systems. Food Chem. 194:184-190.

De Hoog E.H.A., Prinz J.F., Huntjens L., Dresselhuis D.M. and Van Aken G.A. 2006. Lubrication of oral surfaces by food emulsions: the importance of surface characteristics. J. Food Sci. 71:337-341.

de Wijk R.A. and Prinz J.F. 2005. The role of friction in perceived oral texture. Food Qual. Pref. 16:121-129.

Dickinson E. 2003. Hydrocolloids at interfaces and the influence on the properties of dispersed systems. Food Hydrocoll. 17:25-39.

Dickinson E. 2018. On the road to understanding and control of creaminess perception in food colloids. Food Hydrocoll. 77:372-385.

Drapala K.P., Auty M.A.E., Mulvihill D.M. and O’Mahony J.A. 2017. Influence of emulsifier type on the spray-drying properties of model infant formula emulsions. Food Hydrocoll. 69:56-66.

Dresselhuis D.M., de Hoog E.H.A., Cohen Stuart M.A., 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 Hydrocoll. 22:1170-1183.

Fellendorf S., O’Sullivan M.G. and Kerry J.P. 2017. Effect of different salt and fat levels on the physicochemical properties and sensory quality of black pudding. Food Sci. & Nutr. 5:273-284.

Gosney M. 2003. Are we wasting our money on food supplements in elder care wards? J. Adv. Nurs. 43:275-280.

Ho K.K.H., Schroën K., San Martín-González M.F. and Berton-Carabin C.C. 2018. Synergistic and antagonistic effects of plant and dairy protein blends on the physicochemical stability of lycopene-loaded emulsions. Food Hydrocoll. 81:180-190.

Hori K., Ono T., Tamine K., Kondo J., Hamanaka S., Maeda Y., Dong J. and Hatsuda M. 2009. Newly developed sensor sheet for measuring tongue pressure during swallowing. J. Prosthodontic Res. 53:28-32.

Huang X., Kakuda Y. and Cui W. 2001. Hydrocolloids in emulsions: particle size distribution and interfacial activity. Food Hydrocoll. 15:533-542.

Hughes G.J., Ryan D.J., Mukherjea R. and Schasteen C.S. 2011. Protein digestibility-corrected amino acid scores (PDCAAS) for soy protein isolates and concentrate: Criteria for evaluation. J. Agr. and Food Chem. 59:12707-12712.

Huppertz T., Gazi I., Luyten H., Nieuwenhuijse H., Alting A. and Schokker E. 2017. Hydration of casein micelles and caseinates: Implications for casein micelle structure. Int. Dairy J. 74:1-11.

Ibanoglu E. 2002. Rheological behaviour of whey protein stabilized emulsions in the presence of gum arabic. J. Food Eng. 52:273-277.

Laiho S., Williams R.P.W., Poelman A., Appelqvist I. and Logan A. 2017. Effect of whey protein phase volume on the tribology, rheology and sensory properties of fat-free stirred yoghurts. Food Hydrocoll. 67:166-177.

Lauer B.H. and Baker B.E. 1977. Amino acid composition of casein isolated from the milks of different species. Can. J. Zool. 55:231-236.

Ley P. 2008. Masking bitter taste by molecules. Chem. Percept. 1:58-77.

Liu G. and Zhong Q. 2015. High temperature-short time glycation to improve heat stability of whey protein and reduce color formation. Food Hydrocoll. 44:453-460.

Malone M.E., Appelqvist I.A.M. and Norton I.T. 2003. Oral behaviour of food hydrocolloids and emulsions. Part 1. Lubrication and deposition considerations. Food Hydrocoll. 17:763-773.

McClements D.J. 2015a. Emulsion stability. In Food Emulsions. Principles, practices, and techniques 2nd ed.Boca Raton (FL). CRC Press. p. 289-382.

McClements D.J. 2015b. Emulsion rheology. In Food Emulsions. Principles, practices, and techniques. 2nd ed. Boca Raton (FL). CRC Press. p. 383-436.

McClements D.J. 2020. Advances in nanoparticle and microparticle delivery systems for increasing the dispersibility, stability, and bioactivity of phytochemicals. Biotechnol. Adv. 38:107287.

Mellema M. and Bot A. 2009. Milk-based functional beverages. In Functional and Speciality Beverage Technology P. Paquin ed. Cambridge (UK). pp. 232-258.

Mills T., Koay A. and Norton I.T. 2013. Fluid gel lubrication as a function of solvent quality. Food Hydrocoll. 32:172-177.

Mueller C. 2003. Disease-related malnutrition: an evidence-based approach to treatment. Nutr. Clin. Pract. 18:527-528.

Nguyen P.T.M., Nguyen T.A.H., Bhandari B. and Prakash S. 2016. Comparison of solid substrates to differentiate the lubrication property of dairy fluids by tribological measurement. J. Food Eng. 185:1-8.

Pitkowski A., Nicolai T. and Durand D. 2009. Stability of caseinate solutions in the presence of calcium. Food Hydrocoll. 23:1164-1168.

Priyanka S., Jeyan A.M. and Chinnaswamy A. 2020. Food Oral Processing and Tribology: Instrumental Approaches and Emerging Applications. Food Rev. Int. 11:1-34.

Quinzio C., Ayunta C., López de Mishima B. and Iturriaga L. 2018. Stability and rheology properties of oil-in-water emulsions prepared with mucilage extracted from Opuntiaficus-indica (L). Miller. Food Hydrocoll. 84:154-165.

Regan E., O'Neill G.J., Hutchings S.C. and O'Riordan D. 2019. Exploring how age influences sensory perception, thirst and hunger during the consumption of oral nutritional supplements using the check-all-that-apply methodology. Food Qual. Pref. 78:103736.

Richter V.B., de Almeida T.C.A., Prudencio S.H. and de Toledo Benassi M. 2010. Proposing a ranking descriptive sensory method. Food Qual. Pref. 21:611-620.

Ross A.I.V., Tyler P., Borgognone M.G. and Eriksen B.M. 2019. Relationships between shear rheology and sensory attributes of hydrocolloid-thickened fluids designed to compensate for impairments in oral manipulation and swallowing. J. Food Eng. 263:123-131.

Rossetti D., Bongaerts J.H.H., Wantling E., Stokes J.R., and Williamson A.M. 2009. Astringency of tea catechins: More than an oral lubrication tactile percept. Food Hydrocoll. 23:1984-1992.

Siró I., Kápolna E., Kápolna B. and Lugasi A. 2008. Functional food. Product development, marketing and consumer acceptance. A review. Appetite 51:456-467.

Smith T.R., Cawood A.L., Walters E.R., Guildford N. and Stratton R.J. 2020. Ready-made oral nutritional supplements improve nutritional outcomes and reduce health care use-a randomised trial in older malnourished people in primary care. Nutrients 12(2).

Stokes J.R., Boehm M.W. and Baier S.K. 2013. Oral processing, texture and mouthfeel: From rheology to tribology and beyond. Curr. Opin. Colloid Interface Sci. 18:349-359.

Stone H., Bleibaum R.N. and Thomas H.A. 2012. Affective Testing. In Sensory Evaluation Practices 4th ed. San Diego (USA). H. Stone, R.N. Bleibaum, & H.A. Thomas Eds. Academic Press. p. 291-325.

Thomas A., van der Stelt A.J., Prokop J., Lawlor J.B. and Schlich P. 2016. Alternating temporal dominance of sensations and liking scales during the intake of a full portion of an oral nutritional supplement. Food Qual. Pref. 53:159-167.

Thomas A., van der Stelt A.J., Schlich P. and Lawlor J.B. 2018. Temporal drivers of liking for oral nutritional supplements for older adults throughout the day with monitoring of hunger and thirst status. Food Qual. Pref. 70:40-48.

Van Boekel M.A.J.S. 1998. Effect of heating on Maillard reactions in milk. Food Chem. 62:403-414.

Vardhanabhuti B., Cox P.W., Norton I.T. and Foegeding E.A. 2011. Lubricating properties of human whole saliva as affected by B-lactoglobulin. Food Hydrocoll. 25:1499-1506.

VMR. 2019. Global medical foods market by route of administration, by products, by application, by geographic scope and forecast to 2026. Verified Market Research www.verifiedmarketresearch.com/product/medical-foods-market/

Vélez G., Fernández M.A., Muñoz J., Williams P.A. and English R.J. 2003. Role of hydrocolloids in the creaming of oil in water emulsions. J. Agri Food Chem. 51:265-269.

Walstra P., Wouters J.T.M. and Geurts T.J. 2006. Milk properties. In Dairy Science and Technology 2nd ed. Boca Raton (FL) CRC Press. p. 159-174.

Withers C.A., Lewis M.J., Gosney M.A. and Methven L. 2014. Potential sources of mouth drying in beverages fortified with dairy proteins: A comparison of casein-and whey-rich ingredients. J. Dairy Sci. 97:1233-1247.

Ye A., Streicher C. and Singh H. 2011. Interactions between whey proteins and salivary proteins as related to astringency of whey protein beverages at low pH. J. Dairy Sci. 94:5842-5850.

Yousefi M. and Jafari S.M. 2019. Recent advances in application of different hydrocolloids in dairy products to improve their techno-functional properties. Trends Food Sci. Tech. 88:468-483.

Zhao C.J., Schieber A. and Gänzle M.G. 2016. Formation of taste-active amino acids, amino acid derivatives and peptides in food fermentations -A review. Food Res. Int. 89:39-47.