Abstract
How to innovate and reformulate tasty foods and beverages that meet consumer needs and expectations? This is one of the central questions for the food industry. In view of the growing burden of non-communicable diseases, there is an increasing need to reformulate products to improve the nutritional quality and to deliver lower levels of sugars, sodium, and saturated and trans-fatty acids. As reformulation is largely a voluntary action, there are different strategies and ways to guide and drive reformulation from an industrial perspective. Nutrient profiling (NP), a scientific method to assess and guide the nutritional quality of foods and beverages, can play an important role in driving reformulation.
The objective of this chapter is to describe the features and the implementation of a global nutrient profiling system, developed by a major food and beverage manufacturer and used for guiding reformulation. The need of a supportive business environment to promote this implementation is illustrated. A case study explains with a practical example how research in food science and technology enables product (re)formulation. An outlook discusses challenges and future considerations of nutrient profiling systems and of industrial reformulation.
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References
Access to Nutrition Index. (2018). Access to nutrition index: global index 2018. From https://www.accesstonutrition.org/sites/gl18.atnindex.org/files/resources/atni_report_global_index_2018.pdf.
Adams, J., & White, M. (2015). Characterisation of UK diets according to degree of food processing and associations with socio-demographics and obesity: Cross-sectional analysis of UK National Diet and Nutrition Survey (2008-12). International Journal of Behavioral Nutrition and Physical Activity, 12, 160.
Brewer, M. S., Gills, L. A., & J.D., V. (1995). Sensory characteristics of potassium lactate and sodium chloride in a model system. Journal of Sensory Studies, 10(1), 73–87.
Buttriss, J. L. (2012). Food reformulation: The challenges to the food industry. Proceedings of the Nutrition Society, 72(1), 61–69.
Cherno, M. (1963). Feuerbach’s “Man is what He Eats”: A rectification. Journal of the History of Ideas, 24(3), 397–406.
CODEX. (2013). Guidelines on nutrition labelling CAC/GL 2-1985, Revised 2013. From http://www.fao.org/ag/humannutrition/33309-01d4d1dd1abc825f0582d9e5a2eda4a74.pdf
Combet, E., Vlassopoulos, A., Mölenberg, F., Gressier, M., Privet, L., Wratten, C., Sharif, S., Vieux, F., Lehmann, U., & Masset, G. (2017). Testing the capacity of a multi-nutrient profiling system to guide Food and beverage reformulation: Results from Five National Food Composition Databases. Nutrients, 9(4), 406.
Danone. (2017). Nutritional targets 2020. Retrieved 20/07, 2018, from https://www.danone.com/content/dam/danone-corp/about-us-impact/policies-and-commitments/en/2017/2017_04_NutritionalTargets2020.pdf
Darmon, N., Vieux, F., Maillot, M., Volatier, J. L., & Martin, A. (2009). Nutrient profiles discriminate between foods according to their contribution to nutritionally adequate diets: A validation study using linear programming and the SAIN,LIM system. The American Journal of Clinical Nutrition, 89(4), 1227–1236.
Darmon, N., Sondey, J., Azais-Braesco, V., & Maillot, M. (2018). The SENS algorithm-a new nutrient profiling system for food labelling in Europe. European Journal of Clinical Nutrition, 72(2), 236–248.
Davis, E. A. (1995). Functionality of sugars: Physicochemical interactions in foods. The American Journal of Clinical Nutrition, 62(1. Suppl), 170S–177S.
Detzel, P., & Wieser, S. (2015). Food fortification for addressing iron deficiency in Filipino children: Benefits and cost-effectiveness. Annals of Nutrition & Metabolism, 66(Suppl 2), 35–42.
Dobbs, R., Sawers, C., Thompson, F., Manyika, J., Woetzel, J. R., Child, P., McKenna, S., & Spatharou, A. (2014). Overcoming obesity: An initial economic analysis. Jakarta: McKinsey Global Institute.
Dotsch, M., Busch, J., Batenburg, M., Liem, G., Tareilus, E., Mueller, R., & Meijer, G. (2009). Strategies to reduce sodium consumption: A food industry perspective. Critical Reviews in Food Science and Nutrition, 49(10), 841–851.
Drewnowski, A. (2009). Defining nutrient density: Development and validation of the nutrient rich foods index. Journal of the American College of Nutrition, 28(4), 421S–426S.
Drewnowski, A., & Fulgoni, I. I. I. V. L. (2014). Nutrient density: Principles and evaluation tools. The American Journal of Clinical Nutrition, 99(5), 1223S–1228S.
Dunford, E. K., Huang, L., Peters, S. A. E., Crino, M., Neal, B. C., & Ni Mhurchu, C. (2018). Evaluation of alignment between the health claims nutrient profiling scoring criterion (NPSC) and the health star rating (HSR) nutrient profiling models. Nutrients, 10(8), 1065. https://doi.org/10.3390/nu10081065.
Espinoza-Orias, N., S. Batley, S. Grassi-Hertz, S. Halvorson, U. Schenker and C. Detrois. (2016). Eco-design shapes product innovation and development. Retrieved 27/06, 2018. From http://www.fstjournal.org/features/30-2/Eco-design-of-foods
European Food Safety Authority. (2008). The setting of nutrient profiles for foods bearing nutrition and health claims pursuant to Article 4 of the Regulation (EC) No 1924/2006 – Scientific Opinion of the Panel on Dietetic Products, Nutrition and Allergies. EFSA Journal, 644, 1–44.
European Food Safety Authority. (2010). Scientific Opinion on Dietary Reference Values for carbohydrates and dietary fibre. EFSA Journal., 8(3), 1462.
Eyles, H., Webster, J., Jebb, S., Capelin, C., Neal, B., & Ni Mhurchu, C. (2013). Impact of the UK voluntary sodium reduction targets on the sodium content of processed foods from 2006 to 2011: Analysis of household consumer panel data. Preventive Medicine, 57(5), 555–560.
Ferrage, A., Fries, L. R., Godinot, N., Labbe, D., & Martin, N. (2018). Fairness-based tasks for assessing children’s perceptions of food quantities and associations with portion selection. Nutrients, 10(4), 453.
FINUT. (2017). Nutrient profiling: Scientific aims versus actual impact on public health. From http://www.finut.org/wp-content/uploads/2017/02/Nutrient_Profiling_Scientific_Aims_versus_Actual_Impact_Public_Health_FINUT_final_180117.pdf
Food and Drug Administration. (2016). Draft guidance for industry: Voluntary sodium reduction goals: Target mean and upper bound concentrations for sodium in commercially processed, packaged, and prepared foods. from https://www.fda.gov/downloads/Food/GuidanceRegulation/GuidanceDocumentsRegulatoryInformation/UCM503798.pdf
FrieslandCampina. (2016). Global nutritional standards. Retrieved 20/07, 2018. From https://www.frieslandcampina.com/app/uploads/sites/2/2017/09/FrieslandCampina-Global-Nutritional-Standards.pdf
Gilbertson, T. A., Liu, L., Kim, I., Burks, C. A., & Hansen, D. R. (2005). Fatty acid responses in taste cells from obesity-prone and -resistant rats. Physiology & Behavior, 86(5), 681–690.
Girgis, S., Neal, B., Prescott, J., Prendergast, J., Dumbrell, S., Turner, C., & Woodward, M. (2003). A one-quarter reduction in the salt content of bread can be made without detection. European Journal of Clinical Nutrition, 57(4), 616–620.
Gressier, M., Mathias, K. C., Drewnowski, A., Vlassopoulos, A., & Masset, G. (2017a). Modeled impact of food and beverage reformulations on added sugars intake and its social gradient in the US. The FASEB Journal, 31(1 Suppl), 437.434.
Gressier, M., Privet, L., Mathias, K. C., Vlassopoulos, A., Vieux, F., & Masset, G. (2017b). Modeled dietary impact of industry-wide food and beverage reformulations in the United States and France. The American Journal of Clinical Nutrition, ajcn153361.
Guilloux, M., Prost, C., Catanéo, C., Leray, G., Chevallier, S., Le Bail, A., & Lethuaut, L. (2013). Impact of salt Granulometry and method of incorporation of salt on the salty and texture perception of model pizza dough. Journal of Texture Studies, 44(5), 397–408.
Hamajima, K. (1976). Taste interrelationships (part 2): Relationship between saltiness and acidity. Journal of Home Economics Japan, 27, 255–261.
Health Star Rating. (2018). Guide for industry to the Health Star Rating Calculator (HSRC). From http://healthstarrating.gov.au/internet/healthstarrating/publishing.nsf/content/E380CCCA07E1E42FCA257DA500196044/$File/Guide%20for%20Industry%20to%20the%20Health%20Star%20Rating%20Calculator.pdf
Institute of Medicine. (2006). Dietary reference intakes: The essential guide to nutrient requirements. Washington, DC: The National Academies Press.
International Food Information Council Foundation. (2016). Food decision 2016 – Food and health survey. From https://www.foodinsight.org/sites/default/files/2016-Food-and-Health-Survey-Report_FINAL1.pdf
Jansen, L., & Roodenburg, A. J. C. (2016). The use of food composition data in the choices international Programme. Food Chemistry, 193, 196–202.
Jebb, S. A. (2018). Interventions to accelerate change towards a healthier diet. Proceedings of the Nutrition Society, 77(2), 106–111.
Joint FAO/WHO Expert Consultation. (2008). Fats and fatty acids in human nutrition. Proceedings of the joint FAO/WHO expert consultation. From http://www.fao.org/3/a-i1953e.pdf
Julia, C., & Hercberg, S. (2016). Research and lobbying conflicting on the issue of a front-of-pack nutrition labelling in France. Arch Public Health, 74, 51.
Julia, C., Ducrot, P., Péneau, S., Deschamps, V., Méjean, C., Fézeu, L., Touvier, M., Hercberg, S., & Kesse-Guyot, E. (2015). Discriminating nutritional quality of foods using the 5-color nutrition label in the French food market: Consistency with nutritional recommendations. Nutrition Journal, 14(1), 100.
Kilcast, D., & den Ridder, C. (2007). Reducing salt in foods. Chapter 10 – sensory issues in reducing salt in food products. Cambridge: Woodhead Publishing.
Konitzer, K., Pflaum, T., Oliveira, P., Arendt, E., Koehler, P., & Hofmann, T. (2013). Kinetics of sodium release from wheat bread crumb as affected by sodium distribution. Journal of Agricultural and Food Chemistry, 61(45), 10659–10669.
Labonte, M.-E., T. Poon, B. Gladanac, M. Ahmed, B. F. Arellano, M. Rayner and M. L’Abbe. (2015). Systematic review of nutrient profile models developed for nutrition-related policies and regulations aimed at noncommunicable disease prevention. From http://www.crd.york.ac.uk/PROSPERO/display_record.php?ID=CRD42015024750
Labonté, M.-È., Poon, T., Mulligan, C., Bernstein, J. T., Franco-Arellano, B., & L’Abbé, M. R. (2017). Comparison of global nutrient profiling systems for restricting the commercial marketing of foods and beverages of low nutritional quality to children in Canada. The American Journal of Clinical Nutrition, 106(6), 1471–1481.
Lehmann, U., Rheiner Charles, V., Vlassopoulos, A., Masset, G., & Spieldenner, J. (2017). Nutrient profiling for product reformulation: Public health impact and benefits for the consumer. The Proceedings of the Nutrition Society, 76(3), 255–264.
Leroy, P., Requillart, V., Soler, L. G., & Enderli, G. (2016). An assessment of the potential health impacts of food reformulation. European Journal of Clinical Nutrition, 70(6), 694–699.
Lynch, E. J., Dal Bello, F., Sheehan, E. M., Cashman, K. D., & Arendt, E. K. (2009). Fundamental studies on the reduction of salt on dough and bread characteristics. Food Research International, 42(7), 885–891.
MacGregor, G. A., He, F. J., & Pombo-Rodrigues, S. (2015). Food and the responsibility deal: How the salt reduction strategy was derailed. BMJ: British Medical Journal, 350, h1936.
Martinez Steele, E., Baraldi, L. G., Louzada, M. L., Moubarac, J. C., Mozaffarian, D., & Monteiro, C. A. (2016). Ultra-processed foods and added sugars in the US diet: Evidence from a nationally representative cross-sectional study. BMJ Open, 6(3), e009892.
Masset, G., Mathias, K. C., Vlassopoulos, A., Molenberg, F., Lehmann, U., Gibney, M., & Drewnowski, A. (2016). Modeled dietary impact of pizza reformulations in US children and adolescents. PLoS One, 11(10), e0164197.
Mondelēz International. (2016). Better choices nutrition criteria. Retrieved 20/07, 2018. From https://www.mondelezinternational.com/impact/well-being-snacks/~/media/MondelezCorporate/uploads/downloads/betterChoices.pdf
Monteiro, C. A., Levy, R. B., Claro, R. M., de Castro, I. R., & Cannon, G. (2011). Increasing consumption of ultra-processed foods and likely impact on human health: Evidence from Brazil. Public Health Nutrition, 14(1), 5–13.
Mueller, E., Koehler, P., & Scherf, K. A. (2016). Applicability of salt reduction strategies in pizza crust. Food Chemistry, 192, 1116–1123.
Nestlé. (2012). 60/40+: Making nutrition the preferred choice. Retrieved 27/06, 2018. From https://www.nestle.com/csv/case-studies/allcasestudies/6040-making-nutrition-preferred-choice
Nestlé. (2017). Nestlé in society. Creating shared value and meeting our commitments 2017. From https://www.nestle.com/asset-library/documents/library/documents/corporate_social_responsibility/nestle-csv-full-report-2017-en.pdf
Nestlé. Nestlé Nutritional Profiling System (NNPS) Infographic. From https://www.nestle.com/asset-library/documents/r_and_d/nestle-nutritional-profiling-system-infographic.pdf.
Nijman, C. A., Zijp, I. M., Sierksma, A., Roodenburg, A. J., Leenen, R., van den Kerkhoff, C., Weststrate, J. A., & Meijer, G. W. (2007). A method to improve the nutritional quality of foods and beverages based on dietary recommendations. European Journal of Clinical Nutrition, 61(4), 461–471.
Nitzke, S., Freeland-Graves, J., & A. D. Association. (2007). Position of the American dietetic association: Total diet approach to communicating Food and nutrition information. Journal of the Academy of Nutrition and Dietetics, 107(7), 1224–1232.
Noort, M. W. J., Bult, J. H. F., Stieger, M., & Hamer, R. J. (2010). Saltiness enhancement in bread by inhomogeneous spatial distribution of sodium chloride. Journal of Cereal Science, 52(3), 378–386.
Noort, M. W. J., Bult, J. H. F., & Stieger, M. (2012). Saltiness enhancement by taste contrast in bread prepared with encapsulated salt. Journal of Cereal Science, 55(2), 218–225.
Nutraingredients. (2017). Open letter demands EU-wide nutrient profiles for nutrition and health claims. From https://www.nutraingredients.com/Article/2017/05/15/Open-letter-demands-EU-wide-nutrient-profiles-for-nutrition-and-health-claims
Ohmes, R. L., Marshall, R. T., & Heymann, H. (1998). Sensory and physical properties of ice creams containing milk fat or fat replacers. Journal of Dairy Science, 81(5), 1222–1228.
Palzer, S. (2017). Technological solutions for reducing impact and content of health sensitive nutrients in food. Trends in Food Science & Technology, 62, 170–176.
PepsiCo. PepsiCo nutrition criteria. Retrieved 20/07, 2018. From https://www.pepsico.com/docs/album/policies-doc/pepsico-nutrition-criteria.pdf.
Phan, V. A., Yven, C., Lawrence, G., Chabanet, C., Reparet, J. M. & Salles, C. (2008). In vivo sodium release related to salty perception during eating model cheeses of different textures
Roodenburg, A. J. C. (2017). Nutrient profiling for front of pack labelling: How to align logical consumer choice with improvement of products? The Proceedings of the Nutrition Society, 76(3), 247–254.
Sacks, G., Rayner, M., Stockley, L., Scarborough, P., Snowdon, W., & Swinburn, B. (2011). Applications of nutrient profiling: Potential role in diet-related chronic disease prevention and the feasibility of a core nutrient-profiling system. European Journal of Clinical Nutrition, 65(3), 298–306.
Scarborough, P., Rayner, M., & Stockley, L. (2007). Develo** nutrient profile models: A systematic approach. Public Health Nutrition, 10(4), 330–336.
Spiteri, M., & Soler, L.-G. (2018). Food reformulation and nutritional quality of food consumption: An analysis based on households panel data in France. European Journal of Clinical Nutrition, 72(2), 228–235.
The Consumer Goods Forum. (2017). Health & wellness progress report: Based on 2016 survey findings. Retrieved 03/07, 2018. From https://www.theconsumergoodsforum.com/wp-content/uploads/2017/11/2017_CGF-Health-and-Wellness-Progress-Report.pdf
US Food and Drug Administration. (2016). Draft guidance for industry: Voluntary sodium reduction goals: Target mean and upper bound concentrations for sodium in commercially processed, packaged, and prepared foods. Draft guidance for industry: Voluntary sodium reduction goals: Target mean and upper bound concentrations for sodium in commercially processed, packaged, and prepared foods. Retrieved 27.04.2017, from https://www.fda.gov/Food/GuidanceRegulation/GuidanceDocumentsRegulatoryInformation/ucm494732
van Gunst, A., Roodenburg, A., & Steenhuis, I. (2018). Reformulation as an integrated approach of four disciplines: A qualitative study with Food companies. Food, 7(4), 64.
Verhagen, H., & van den Berg, H. (2008). A simple visual model to compare existing nutrient profiling schemes. Food & Nutrition Research, 52, 1649. https://doi.org/10.3402/fnr.v3452i3400.1649.
Vieux, F., Privet, L., & Masset, G. (2018). Food- and diet-based validations of a Nestlé nutrient profiling system for reformulation in two nationally representative surveys. British Journal of Nutrition. 120(9):1051–1064. https://doi.org/10.1017/S0007114518002490
Vlassopoulos, A., Masset, G., Charles, V. R., Hoover, C., Chesneau-Guillemont, C., Leroy, F., Lehmann, U., Spieldenner, J., Tee, E.-S., Gibney, M., & Drewnowski, A. (2016). A nutrient profiling system for the (re)formulation of a global food and beverage portfolio. European Journal of Nutrition, 56(3):1105–1122.
WHO (2003). Diet, nutrition and the prevention of chronic diseases. Report of a Joint WHO/FAO Expert Consultation. Technical Report Series. Geneva. 916.
World Cancer Research Fund. (2017). NOURISHING database. From https://www.wcrf.org/int/policy/nourishing-database
World Health Organisation. (2010). Nutrient profiling. Retrieved 04/2018. From http://www.who.int/nutrition/topics/profiling/en/
World Health Organisation Regional Office for Europe. (2014). European Food and Nutrition Action Plan 2015–2020. From http://www.euro.who.int/__data/assets/pdf_file/0008/253727/64wd14e_FoodNutAP_140426.pdf
World Health Organization. (2011). Nutrient profiling: Report of a WHO/IASO technical meeting, London, United Kingdom, 4–6 October 2010. From http://www.who.int/nutrition/publications/profiling/WHO_IASO_report2010.pdf
World Health Organization Regional Office for Europe. (2013). Map** salt reduction initiatives in the WHO European region. From http://www.euro.who.int/en/health-topics/disease-prevention/nutrition/publications/2013/map**-salt-reduction-initiatives-in-the-who-european-region
Yach, D., Khan, M., Bradley, D., Hargrove, R., Kehoe, S., & Mensah, G. (2010). The role and challenges of the food industry in addressing chronic disease. Globalization and Health, 6, 10.
Yamagushi, S., & Takahashi, C. (1984). Interactions of monosodium glutamate and sodium chloride on saltiness and palatability of a clear soup. Journal of Food Science, 49(1), 82–85.
Zeuthen, P., & Bøgh-Sørensen, L. (2003). Food preservation techniques. Woodhead Publishing. Cambridge.
Zhou, Y., Du, S., Su, C., Zhang, B., Wang, H., & Popkin, B. M. (2015). The food retail revolution in China and its association with diet and health. Food Policy, 55, 92–100.
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The authors would like to cordially thank Sophie Lagarrigue-Gojani for comments on the case study and valuable review.
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Lehmann, U., Mak, T.N., Bolten, C.J. (2019). Reformulation as a Strategy for Develo** Healthier Food Products: Challenges and Recent Developments – An Industry Perspective. In: Raikos, V., Ranawana, V. (eds) Reformulation as a Strategy for Develo** Healthier Food Products. Springer, Cham. https://doi.org/10.1007/978-3-030-23621-2_4
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