Public Health Nutrition special issue on ultra-processed foods

Bridget Kelly; Enrique Jacoby

doi:10.1017/S1368980017002853

Public Health Nutrition special issue on ultra-processed foods

Published online by Cambridge University Press: 11 December 2017

Bridget Kelly and

Enrique Jacoby

Show author details

Bridget Kelly*: Affiliation:
Early Start, School of Health & Society University of WollongongNorthfields AvenueWollongong, NSW 2522, Australia
Enrique Jacoby: Affiliation:
Global Health Advocacy Incubator, Brazil Coordinator Rua Capote Valente 500, Apt 220, São Paulo 05409000, Brazil Former Regional Advisor on Nutrition of PAHO/WHO
*: Email: [email protected]

Article contents

Abstract
References

Rights & Permissions

Abstract

An abstract is not available for this content. As you have access to this content, full HTML content is provided on this page. A PDF of this content is also available in through the ‘Save PDF’ action button.

Type: Editorial
Information: Public Health Nutrition , Volume 21 , Special Issue 1: Ultra Processed Foods , January 2018 , pp. 1 - 4

DOI: https://doi.org/10.1017/S1368980017002853 [Opens in a new window]
Creative Commons: This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright: Copyright © The Authors 2017

This special issue on ultra-processed foods considers the role and utility of food processing-based classification systems in food and nutrition research and public policy. Such classification systems have been developed as industrialised food processing and the transnational corporations that drive the production, advertising and sales of industrially processed foods⁽ Reference Moodie, Stuckler and Monteiro ¹ ⁾ have become a major influencer in the global food system and an important determinant of nutrition-related health outcomes⁽ Reference Monteiro, Cannon and Moubarac ² ⁾.

As highlighted by Monteiro and colleagues in this special issue⁽ Reference Monteiro, Cannon and Moubarac ² ⁾, in the past decade, food processing-based classification systems have been increasingly acknowledged in reports and commentary from the WHO, FAO and the Pan American Health Organization (PAHO). During this time, such systems have also been applied in nutrition monitoring and in epidemiological and intervention studies published in Public Health Nutrition and other journals.

Globally, there are at least seven frameworks that have been devised for classifying foods according to their level of food processing⁽ Reference Crino, Barakat and Trevena ³ ^, Reference Moubarac, Parra and Cannon ⁴ ⁾. The most commonly applied framework is the NOVA system, first defined in a commentary published in Public Health Nutrition in 2009⁽ Reference Monteiro ⁵ ⁾ and further refined to include four food groups: unprocessed or minimally processed foods, processed culinary ingredients, processed foods and ultra-processed foods⁽ Reference Monteiro, Cannon and Moubarac ² ⁾. Originally developed in Brazil, its global application is evident from the range of countries represented in this special issue, spanning Latin America, North America, Europe, the Middle East and Australia. The term ‘ultra-processed’ foods is unique to the NOVA system and is defined as ‘…not modified foods but formulations made mostly or entirely from substances derived from foods and additives, with little if any intact food’⁽ Reference Monteiro, Cannon and Moubarac ² ⁾.

Ultra-processed foods dominate the food supply in high-income countries and this is increasingly the case in low- and middle-income countries, where urbanisation, a globalised industrial food supply including massively increased foreign direct investment in locally based food companies⁽ Reference Hawkes ⁶ ⁾, and mass and now social media marketing have dramatically shifted population diets away from unprocessed or minimally processed foods and freshly prepared meals⁽ ⁷ ⁾. Population nutrition monitoring studies presented in this special issue highlight this dominance of ultra-processed foods, particularly in North America and Europe but also in Latin America. According to these studies, all applying the NOVA system to national 24 h dietary recall data, the energy contribution of ultra-processed foods was 57·6 % for children and adults in the USA⁽ Reference Martinez Steele, Raubenheimer and Simpson ⁸ ⁾, 35·9 % for French adults⁽ Reference Julia, Martinez and Allès ⁹ ⁾, 29·8 % for Mexican children and adults⁽ Reference Marrón-Ponce, Sánchez-Pimienta and Louzada ¹⁰ ⁾ and 28·6 % for Chilean children and adults⁽ Reference Cediel, Reyes and da Costa Louzada ¹¹ ⁾. It has been noted that ultra-processed foods contribute substantially to population intakes of micronutrients across many countries⁽ Reference Gibney, Forde and Mullally ¹² ⁾. Findings from the studies in this special issue challenge that assertion and demonstrate an association between higher consumption of ultra-processed foods and poorer nutritional intakes, including higher intakes of energy and free/added sugar⁽ Reference Julia, Martinez and Allès ⁹ ^, Reference Cediel, Reyes and da Costa Louzada ¹¹ ⁾ and lower intakes of fibre⁽ Reference Julia, Martinez and Allès ⁹ ⁾, micronutrients⁽ Reference Julia, Martinez and Allès ⁹ ⁾ and protein⁽ Reference Martinez Steele, Raubenheimer and Simpson ⁸ ⁾.

Epidemiological evidence has previously demonstrated that ultra-processed food consumption is associated with poorer diet quality in the USA⁽ Reference Martínez Steele, Popkin and Swinburn ¹³ ⁾, Canada⁽ Reference Moubarac, Batal and Louzada ¹⁴ ⁾ and Brazil⁽ Reference Monteiro, Levy and Claro ¹⁵ ⁾; obesity in Brazil⁽ Reference Canella, Levy and Martins ¹⁶ ⁾, Guatemala⁽ Reference Asfaw ¹⁷ ⁾, Spain⁽ Reference Mendonca, Pimenta and Gea ¹⁸ ⁾ and Sweden⁽ Reference Juul and Hemmingsson ¹⁹ ⁾; hypertension in Spain⁽ Reference RdD, Lopes and Pimenta ²⁰ ⁾; metabolic syndrome in Brazil⁽ Reference Tavares, Fonseca and Garcia Rosa ²¹ ⁾; and dyslipidaemia in children in Brazil⁽ Reference Rauber, Campagnolo and Hoffman ²² ⁾. Papers in this special issue reinforce the aetiology between ultra-processed food consumption and nutritional outcomes and chronic conditions, and extend such evidence to new populations. Notably, two papers describe the relationship between ultra-processed food consumption and nutrition and health outcomes in First Nations peoples in Canada and are the first studies to apply NOVA to Indigenous populations. Higher energy contribution from ultra-processed foods was significantly associated with poorer diet quality⁽ Reference Batal, Johnson-Down and Moubarac ²³ ⁾ and with metabolic syndrome⁽ Reference Lavigne-Robichaud, Moubarac and Lantagne-Lopez ²⁴ ⁾ in First Nations peoples. Percentage energy intake from ultra-processed foods has been proposed as a summary indicator of population diet quality⁽ Reference Vandevijvere, Monteiro and Krebs-Smith ²⁵ ⁾. Evidence presented in this special issue supports this idea, with ultra-processed food consumption being a better predictor of metabolic syndrome in an Indigenous Cree population compared with other indices of diet quality⁽ Reference Batal, Johnson-Down and Moubarac ²³ ⁾. Other papers in this special issue find positive associations between ultra-processed food consumption and poorer diet quality (in Brazil⁽ Reference Louzada, Ricardo and Steele ²⁶ ⁾ and Colombia⁽ Reference Cornwell, Villamor and Mora-Plazas ²⁷ ⁾), obesity (in young people⁽ Reference Costa, Del-Ponte and Assunção ²⁸ ⁾; and in adults in Europe⁽ Reference Monteiro, Moubarac and Levy ²⁹ ⁾) and metabolic syndrome (in Lebanon⁽ Reference Nasreddine, Tamim and Itani ³⁰ ⁾). To date, a small number of longitudinal studies have specifically applied the NOVA system for classifying diets and they support identified associations between higher ultra-processed food consumption and chronic conditions⁽ Reference Mendonca, Pimenta and Gea ¹⁸ ^, Reference RdD, Lopes and Pimenta ²⁰ ^, Reference Rauber, Campagnolo and Hoffman ²² ⁾. Other cohort studies (e.g.⁽ Reference Ma, McKeown and Hwang ³¹ ⁾) identify associations between specific ultra-processed products, such as sugary drinks, and nutritional and health outcomes. The reanalysis of existing cohort study data using the NOVA classification would be a worthy endeavour.

Food processing-based classification systems, and specifically NOVA, offer possibilities for use in public policy as a way to define unhealthful dietary patterns. This includes scope for use in ‘soft’ policies, including dietary advice, through to ‘hard’ policy options of laws, regulations and fiscal instruments. NOVA is used in the 2014 Dietary Guidelines for the Brazilian Population and the 2016 Dietary Guidelines for the Uruguayan Population, which both emphasise the consumption of unprocessed or minimally processed foods and recommend limiting processed foods and avoiding ultra-processed foods⁽ ³² ^, ³³ ⁾. Two papers in this special issue examine the application of NOVA to the Brazilian dietary guidelines. These papers apply discourse and thematic analyses to explore the socio-ecological dimensions of nutrition that the new guide promulgates and (i) how this compares with the maiden version of the dietary guidelines from 2006⁽ Reference Oliveira and Silva-Amparo ³⁴ ⁾ and (ii) how this was received by stakeholders, as identified through submissions to the public consultation during its development⁽ Reference Davies, Moubarac and Medeiros ³⁵ ⁾. Together these papers highlight the importance of Brazil’s legal framework and political mandate for adequate and healthy food as a human right in the Government’s avant-garde adoption of the NOVA system. More research is needed to understand consumers’ comprehension of, and their ability to adopt, dietary guidance based on levels of food processing. This is particularly relevant in some developed countries, where the loss of culinary skills has been documented⁽ Reference Nelson, Corbin and Nickols-Richardson ³⁶ ⁾.

Food processing-based classification systems may underpin other regulatory strategies for the prevention and control of obesity and diet-related non-communicable diseases by identifying unhealthful foods. For example, NOVA has been applied in the Nutrient Profiling Model developed by PAHO to distinguish foods that require regulatory control⁽ ³⁷ ⁾. Regulations may specify the restriction of ultra-processed foods from marketing to children, or prohibit nutrition and health claims from ultra-processed food products. Research in this special issue identifies that ultra-processed foods currently comprise almost all foods promoted during children’s television programmes in Argentina⁽ Reference Allemandi, Castronuovo and Tiscornia ³⁸ ⁾ and that these products frequently carry nutrition and health claims in Australia⁽ Reference Pulker, Scott and Pollard ³⁹ ⁾ and Canada⁽ Reference Christoforou, Dachner and Mendelson ⁴⁰ ⁾, which likely leads to health halo effects.

Food processing-based classification systems could also be applied in local planning regulations, where these seek to influence the availability or accessibility of foods in local environments. In a cross-sectional survey from one city in Brazil in this special issue, neighbourhood within-store availability of processed and ultra-processed foods was associated with children’s higher intakes of these foods and a lower intake of unprocessed foods⁽ Reference Leite, de Carvalho Cremm and de Abreu ⁴¹ ⁾. In a separate Brazilian study, household food purchasing data identified a positive association between food purchasing at supermarkets and ultra-processed food intake, while ultra-processed food intake decreased with shopping at smaller markets and small producers⁽ Reference Machado, Claro and Martins ⁴² ⁾. These studies emphasise the need for local planning policies that restrict ultra-processed food availability and marketing in local food environments and for these to be context-specific.

Food policy interventions aimed at product reformulation typically aim to reduce at-risk or negative nutrients in processed and ultra-processed foods rather than shift consumption patterns towards less processed products. The commentary by Scrinis and Monteiro in this special issue highlights that reformulation to reduce negative nutrients can lead to ‘premium’ ultra-processed foods that are likely no healthier and often more expensive⁽ Reference Scrinis and Monteiro ⁴³ ⁾. The challenging notion that food processing-based classification systems introduce is the need for a complete reorientation of global food supplies, away from ready-to-consume food and drink formulations and towards minimally processed foods and freshly prepared meals, rather than simply modifying ultra-processed foods to be less harmful. This notion is particularly complicated in countries where ultra-processed foods dominate food supplies and diets, and may pose an obstacle for the adoption of food processing-based classification systems in food policy. In these countries, such as the USA, UK and Australia, policies that seek to restrict the availability, accessibly, affordability or acceptability of ultra-processed foods would currently apply to the majority of market products and foods consumed. More research is needed to understand how such policies would be possible in such food environments and how consumers could adapt to a changing food supply in the context of poor culinary skills.

The evidence presented in this special issue confirms that food processing-based classification systems, and particularly NOVA, are useful in nutrition research designed to judge the quality of diets, dietary patterns, and components of food systems and environments. NOVA has already informed public policy specifications for the promotion of healthy diets, including healthy eating guidelines and the identification of foods requiring regulatory control. The apparent ability for this system to be adopted across countries and cultures suggests its potential for wider application in food policy.

Acknowledgement

Warm thanks to Professor Carlos Monteiro and Assistant Professor Jean-Claude Moubarac for reviewing a draft of this manuscript.

References

1. Moodie, R, Stuckler, D, Monteiro, C et al. (2013) Profits and pandemics: prevention of harmful effects of tobacco, alcohol, and ultra-processed food and drink industries. Lancet 381, 670–679.Google Scholar

2. Monteiro, CA, Cannon, G, Moubarac, JC et al. (2017) The UN Decade of Nutrition, the NOVA food classification and the trouble with ultra-processing. Public Health Nutr 21, 5–17.CrossRef Google Scholar PubMed

3. Crino, M, Barakat, T, Trevena, H et al. (2017) Systematic review and comparison of classification frameworks describing the degree of food processing. Nutr Food Technol 3, issue 1, available at http://dx.doi.org/10.16966/2470-6086.138 Google Scholar

4. Moubarac, JC, Parra, DC, Cannon, G et al. (2014) Food classification systems based on food processing: significance and implications for policies and actions: a systematic literature review and assessment. Curr Obes Rep 3, 256–272.Google Scholar

5. Monteiro, CA (2009) Nutrition and health. The issue is not food, nor nutrients, so much as processing. Public Health Nutr 12, 729–731.CrossRef Google Scholar

6. Hawkes, C (2005) The role of foreign direct investment in the nutrition transition. Public Health Nutr 8, 357–365.Google Scholar

7. Pan American Health Organization (2015) Ultra-Processed Food and Drink Products in Latin America: Trends, Impact on Obesity, Policy Implications. Washington, DC: PAHO.Google Scholar

8. Martinez Steele, E, Raubenheimer, D, Simpson, SJ et al. (2017) Ultra-processed foods, protein leverage and energy intake in the USA. Public Health Nutr 21, 114–124.Google Scholar

9. Julia, C, Martinez, L, Allès, B et al. (2017) Contribution of ultra-processed foods in the diet of adults from the French NutriNet-Santé study. Public Health Nutr 21, 27–37.Google Scholar

10. Marrón-Ponce, JA, Sánchez-Pimienta, TG, Louzada, MLC et al. (2017) Energy contribution of NOVA food groups and sociodemographic determinants of ultra-processed foods consumption in the Mexican population. Public Health Nutr 21, 87–93.CrossRef Google Scholar PubMed

11. Cediel, G, Reyes, M, da Costa Louzada, ML et al. (2017) Ultra-processed foods and added sugars in the Chilean diet (2010). Public Health Nutr 21, 125–133.Google Scholar

12. Gibney, MJ, Forde, CG, Mullally, D et al. (2017) Ultra-processed foods in human health: a critical appraisal. Am J Clin Nutr (Epublication ahead of print version).Google Scholar

13. Martínez Steele, E, Popkin, BM, Swinburn, B et al. (2017) The share of ultra-processed foods and the overall nutritional quality of diets in the US: evidence from a nationally representative cross-sectional study. Popul Health Metr 15, 6.Google Scholar

14. Moubarac, J-C, Batal, M, Louzada, ML et al. (2017) Consumption of ultra-processed foods predicts diet quality in Canada. Appetite 108, 512–520.Google Scholar

15. Monteiro, CA, Levy, RB, Claro, RM et al. (2010) Increasing consumption of ultra-processed foods and likely impact on human health: evidence from Brazil. Public Health Nutr 14, 5–13.Google Scholar

16. Canella, DS, Levy, RB, Martins, AP et al. (2014) Ultra-processed food products and obesity in Brazilian households (2008–2009). PLoS One 9, e92752.Google Scholar

17. Asfaw, A (2011) Does consumption of processed foods explain disparities in the body weight of individuals? The case of Guatemala. Health Econ 20, 184–195.Google Scholar

18. Mendonca, RD, Pimenta, AM, Gea, A et al. (2016) Ultraprocessed food consumption and risk of overweight and obesity: the University of Navarra Follow-Up (SUN) cohort study. Am J Clin Nutr 104, 1433–1440.Google Scholar

19. Juul, F & Hemmingsson, E (2015) Trends in consumption of ultra-processed foods and obesity in Sweden between 1960 and 2010. Public Health Nutr 18, 3096–3107.Google Scholar

20. RdD, Mendonça, Lopes, ACS, Pimenta, AM et al. (2017) Ultra-processed food consumption and the incidence of hypertension in a Mediterranean cohort: the Seguimiento Universidad de Navarra Project. Am J Hypertens 30, 358–366.Google Scholar

21. Tavares, LF, Fonseca, SC, Garcia Rosa, ML et al. (2011) Relationship between ultra-processed foods and metabolic syndrome in adolescents from a Brazilian Family Doctor Program. Public Health Nutr 15, 82–87.Google Scholar

22. Rauber, F, Campagnolo, PDB, Hoffman, DJ et al. (2015) Consumption of ultra-processed food products and its effects on children’s lipid profiles: a longitudinal study. Nutr Metab Cardiovasc Dis 25, 116–122.CrossRef Google Scholar PubMed

23. Batal, M, Johnson-Down, L, Moubarac, J-C et al. (2017) Quantifying associations of the dietary share of ultra-processed foods with overall diet quality in First Nations peoples in the Canadian provinces of British Columbia, Alberta, Manitoba and Ontario. Public Health Nutr 21, 103–113.CrossRef Google Scholar PubMed

24. Lavigne-Robichaud, M, Moubarac, J-C, Lantagne-Lopez, S et al. (2017) Diet quality indices in relation to metabolic syndrome in an Indigenous Cree (Eeyouch) population in northern Québec, Canada. Public Health Nutr 21, 172–180.Google Scholar

25. Vandevijvere, S, Monteiro, C, Krebs-Smith, SM et al. (2013) Monitoring and benchmarking population diet quality globally: a step-wise approach. Obes Rev 14, Suppl. 1, 135–149.CrossRef Google Scholar PubMed

26. Louzada, MLdC, Ricardo, CZ, Steele, EM et al. (2017) The share of ultra-processed foods determines the overall nutritional quality of diets in Brazil. Public Health Nutr 21, 94–102.CrossRef Google Scholar PubMed

27. Cornwell, B, Villamor, E, Mora-Plazas, M et al. (2017) Processed and ultra-processed foods are associated with lower-quality nutrient profiles in children from Colombia. Public Health Nutr 21, 142–147.Google Scholar

28. Costa, CS, Del-Ponte, B, Assunção, MCF et al. (2017) Consumption of ultra-processed foods and body fat during childhood and adolescence: a systematic review. Public Health Nutr 21, 148–159.Google Scholar

29. Monteiro, CA, Moubarac, J-C, Levy, RB et al. (2017) Household availability of ultra-processed foods and obesity in nineteen European countries. Public Health Nutr 21, 18–26.Google Scholar

30. Nasreddine, L, Tamim, H, Itani, L et al. (2017) A minimally processed dietary pattern is associated with lower odds of metabolic syndrome among Lebanese adults. Public Health Nutr 21, 160–171.Google Scholar

31. Ma, J, McKeown, NM, Hwang, SJ et al. (2016) Sugar-sweetened beverage consumption is associated with change of visceral adipose tissue over 6 years of follow-up. Circulation 133, 370–377.Google Scholar

32. Ministry of Health Brazil (2014) Dietary guidelines for the Brazilian population, 2nd edition. http://189.28.128.100/dab/docs/portaldab/publicacoes/guia_alimentar_populacao_ingles.pdf (accessed September 2017).Google Scholar

33. Food and Agriculture Organization of the United Nations (2017) Food-based dietary guidelines – Uruguay. http://www.fao.org/nutrition/education/food-based-dietary-guidelines/regions/countries/uruguay/en/ (accessed September 2017).Google Scholar

34. Oliveira, MSdS & Silva-Amparo, L (2017) Food-based dietary guidelines: a comparative analysis between the Dietary Guidelines for the Brazilian Population 2006 and 2014. Public Health Nutr 21, 210–217.CrossRef Google Scholar PubMed

35. Davies, VF, Moubarac, J-C, Medeiros, KJ et al. (2017) Applying a food processing-based classification system to a food guide: a qualitative analysis of the Brazilian experience. Public Health Nutr 21, 218–229.CrossRef Google Scholar

36. Nelson, SA, Corbin, MA & Nickols-Richardson, SM (2013) A call for culinary skills education in childhood obesity-prevention interventions: current status and peer influences. J Acad Nutr Diet 113, 1031–1036.Google Scholar

37. Pan American Health Organization (2016) Pan American Health Organization Nutrient Profile Model. Washington, DC: PAHO; available at http://iris.paho.org/xmlui/bitstream/handle/123456789/18621/9789275118733_eng.pdf?sequence=9&isAllowed=y Google Scholar

38. Allemandi, L, Castronuovo, L, Tiscornia, MV et al. (2017) Food advertising on Argentinean television: are ultra-processed foods in the lead? Public Health Nutr 21, 238–246.Google Scholar

39. Pulker, CE, Scott, JA & Pollard, CM (2017) Ultra-processed family foods in Australia: nutrition claims, health claims and marketing techniques. Public Health Nutr 21, 38–48.Google Scholar

40. Christoforou, A, Dachner, N, Mendelson, R et al. (2017) Front-of-package nutrition references are positively associated with food processing. Public Health Nutr 21, 58–67.Google Scholar

41. Leite, FHM, de Carvalho Cremm, E, de Abreu, DSC et al. (2017) Association of neighbourhood food availability with the consumption of processed and ultra-processed food products by children in a city of Brazil: a multilevel analysis. Public Health Nutr 21, 189–200.Google Scholar

42. Machado, PP, Claro, RM, Martins, APB et al. (2017) Is food store type associated with the consumption of ultra-processed food and drink products in Brazil? Public Health Nutr 21, 201–209.Google Scholar

43. Scrinis, G & Monteiro, CA (2017) Ultra-processed foods and the limits of product reformulation. Public Health Nutr 21, 247–252.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Dickie, Sarah Woods, Julie L. and Lawrence, Mark 2018. Analysing the use of the Australian Health Star Rating system by level of food processing. International Journal of Behavioral Nutrition and Physical Activity, Vol. 15, Issue. 1,

Rauber, Fernanda Da Costa Louzada, Maria Laura Steele, Eurídice Millett, Christopher Monteiro, Carlos Augusto and Levy, Renata Bertazzi 2018. Ultra-Processed Food Consumption and Chronic Non-Communicable Diseases-Related Dietary Nutrient Profile in the UK (2008–2014). Nutrients, Vol. 10, Issue. 5, p. 587.

Costa, C.S. Rauber, F. Leffa, P.S. Sangalli, C.N. Campagnolo, P.D.B. and Vitolo, M.R. 2019. Ultra-processed food consumption and its effects on anthropometric and glucose profile: A longitudinal study during childhood. Nutrition, Metabolism and Cardiovascular Diseases, Vol. 29, Issue. 2, p. 177.

Koiwai, Kaori Takemi, Yukari Hayashi, Fumi Ogata, Hiromitsu Matsumoto, Saika Ozawa, Keiko Machado, Priscila Pereira and Monteiro, Carlos Augusto 2019. Consumption of ultra-processed foods decreases the quality of the overall diet of middle-aged Japanese adults. Public Health Nutrition, Vol. 22, Issue. 16, p. 2999.

Blanco-Rojo, Ruth Sandoval-Insausti, Helena López-Garcia, Esther Graciani, Auxiliadora Ordovás, Jose M. Banegas, Jose R. Rodríguez-Artalejo, Fernando and Guallar-Castillón, Pilar 2019. Consumption of Ultra-Processed Foods and Mortality: A National Prospective Cohort in Spain. Mayo Clinic Proceedings, Vol. 94, Issue. 11, p. 2178.

Gómez-Donoso, Clara Martínez-González, Miguel Ángel Martínez, J. Alfredo Sayón-Orea, Carmen de la Fuente-Arrillaga, Carmen Bes-Rastrollo, Maira and Conklin, Annalijn I. 2019. Adherence to dietary guidelines for the Spanish population and risk of overweight/obesity in the SUN cohort. PLOS ONE, Vol. 14, Issue. 12, p. e0226565.

Gómez-Donoso, Clara Sánchez-Villegas, Almudena Martínez-González, Miguel A. Gea, Alfredo Mendonça, Raquel de Deus Lahortiga-Ramos, Francisca and Bes-Rastrollo, Maira 2020. Ultra-processed food consumption and the incidence of depression in a Mediterranean cohort: the SUN Project. European Journal of Nutrition, Vol. 59, Issue. 3, p. 1093.

Chen, Xiaojia Zhang, Zhang Yang, Huijie Qiu, Peishan Wang, Haizhou Wang, Fan Zhao, Qiu Fang, Jun and Nie, Jiayan 2020. Consumption of ultra-processed foods and health outcomes: a systematic review of epidemiological studies. Nutrition Journal, Vol. 19, Issue. 1,

Naspolini, Nathalia Ferrazzo Machado, Priscila Pereira Fróes-Asmus, Carmen Ildes Rodrigues Câmara, Volney de M Moreira, Josino Costa and Meyer, Armando 2021. Food consumption according to the degree of processing, dietary diversity and socio-demographic factors among pregnant women in Rio de Janeiro, Brazil: The Rio Birth Cohort Study of Environmental Exposure and Childhood Development (PIPA project). Nutrition and Health, Vol. 27, Issue. 1, p. 79.

Martinez-Perez, Celia San-Cristobal, Rodrigo Guallar-Castillon, Pilar Martínez-González, Miguel Ángel Salas-Salvadó, Jordi Corella, Dolores Castañer, Olga Martinez, Jose Alfredo Alonso-Gómez, Ángel M. Wärnberg, Julia Vioque, Jesús Romaguera, Dora López-Miranda, José Estruch, Ramon Tinahones, Francisco J. Lapetra, José Serra-Majem, Lluis Bueno-Cavanillas, Aurora Tur, Josep A. Sánchez, Vicente Martín Pintó, Xavier Gaforio, José J. Matía-Martín, Pilar Vidal, Josep Vázquez, Clotilde Ros, Emilio Bes-Rastrollo, Maira Babio, Nancy Sorlí, Jose V. Lassale, Camille Pérez-Sanz, Beatriz Vaquero-Luna, Jessica Bazán, María Julia Ajejas Barceló-Iglesias, María Concepción Konieczna, Jadwiga Ríos, Antonio García Bernal-López, María Rosa Santos-Lozano, José Manuel Toledo, Estefanía Becerra-Tomás, Nerea Portoles, Olga Zomeño, María Dolores Abete, Itziar Moreno-Rodriguez, Anai Lecea-Juarez, Oscar Nishi, Stephanie K. Muñoz-Martínez, Júlia Ordovás, José M. and Daimiel, Lidia 2021. Use of Different Food Classification Systems to Assess the Association between Ultra-Processed Food Consumption and Cardiometabolic Health in an Elderly Population with Metabolic Syndrome (PREDIMED-Plus Cohort). Nutrients, Vol. 13, Issue. 7, p. 2471.

McCann, Jennifer R Russell, Georgina C Campbell, Karen J and Woods, Julie L 2021. Nutrition and packaging characteristics of toddler foods and milks in Australia. Public Health Nutrition, Vol. 24, Issue. 5, p. 1153.

Solans, Marta Fernández-Barrés, Sílvia Romaguera, Dora Benavente, Yolanda Marcos-Gragera, Rafael Gracia-Lavedan, Esther Costas, Laura Robles, Claudia Gonzalez-Barca, Eva de la Banda, Esmeralda Alonso, Esther Aymerich, Marta Campo, Elias Llorca, Javier Fernández-Tardón, Guillermo Olmedo-Requena, Rocío Gimeno, Eva Castaño-Vinyals, Gemma Aragonés, Nuria Kogevinas, Manolis Pollán, Marina de Sanjose, Silvia Amiano, Pilar and Casabonne, Delphine 2021. Consumption of Ultra-Processed Food and Drinks and Chronic Lymphocytic Leukemia in the MCC-Spain Study. International Journal of Environmental Research and Public Health, Vol. 18, Issue. 10, p. 5457.

Melo, Adriana ST Neves, Felipe S Batista, Aline P Machado-Coelho, George Luiz L Sartorelli, Daniela S de Faria, Eliane R Netto, Michele P Oliveira, Renata MS Fontes, Vanessa S and Cândido, Ana Paula C 2021. Percentage of energy contribution according to the degree of industrial food processing and associated factors in adolescents (EVA-JF study, Brazil). Public Health Nutrition, Vol. 24, Issue. 13, p. 4220.

Dinu, Monica Bonaccio, Marialaura Martini, Daniela Madarena, Maria Pia Vitale, Marilena Pagliai, Giuditta Esposito, Simona Ferraris, Cinzia Guglielmetti, Monica Rosi, Alice and Angelino, Donato 2021. Reproducibility and validity of a food-frequency questionnaire (NFFQ) to assess food consumption based on the NOVA classification in adults. International Journal of Food Sciences and Nutrition, Vol. 72, Issue. 6, p. 861.

Costa de Miranda, Renata Rauber, Fernanda de Moraes, Milena Miranda Afonso, Cláudia Santos, Cristina Rodrigues, Sara and Levy, Renata Bertazzi 2021. Consumption of ultra-processed foods and non-communicable disease-related nutrient profile in Portuguese adults and elderly (2015–2016): the UPPER project. British Journal of Nutrition, Vol. 125, Issue. 10, p. 1177.

Romaguera, Dora Fernández-Barrés, Sílvia Gracia-Lavedán, Esther Vendrell, Eva Azpiri, Mikel Ruiz-Moreno, Emma Martín, Vicente Gómez-Acebo, Inés Obón, Mireia Molinuevo, Amaia Fresán, Ujué Molina-Barceló, Ana Olmedo-Requena, Rocío Tardón, Adonina Alguacil, Juan Solans, Marta Huerta, Jose M. Ruiz-Dominguez, José Manuel Aragonés, Nuria Fernández-Villa, Tania Dierssen-Sotos, Trinidad Moreno, Victor Guevara, Marcela Vanaclocha-Espi, Mercedes Lozano-Lorca, Macarena Fernández-Tardón, Guillermo Castaño-Vinyals, Gemma Pérez-Gómez, Beatriz Molina, Antonio J. Llorca, Javier Gil, Leire Castilla, Jesús Pollán, Marina Kogevinas, Manolis and Amiano, Pilar 2021. Consumption of ultra-processed foods and drinks and colorectal, breast, and prostate cancer. Clinical Nutrition, Vol. 40, Issue. 4, p. 1537.

Ruggiero, Emilia Esposito, Simona Costanzo, Simona Di Castelnuovo, Augusto Cerletti, Chiara Donati, Maria Benedetta de Gaetano, Giovanni Iacoviello, Licia and Bonaccio, Marialaura 2021. Ultra-processed food consumption and its correlates among Italian children, adolescents and adults from the Italian Nutrition & Health Survey (INHES) cohort study. Public Health Nutrition, Vol. 24, Issue. 18, p. 6258.

Romieu, Isabelle Khandpur, Neha Katsikari, Aikaterini Biessy, Carine Torres-Mejía, Gabriela Ángeles-Llerenas, Angélica Alvarado-Cabrero, Isabel Sánchez, Gloria Inés Maldonado, Maria Elena Porras, Carolina Rodriguez, Ana Cecilia Garmendia, Maria Luisa Chajés, Vèronique Aglago, Elom K Porter, Peggy L Lin, MingGang His, Mathilde Gunter, Marc J Huybrechts, Inge and Rinaldi, Sabina 2022. Consumption of industrial processed foods and risk of premenopausal breast cancer among Latin American women: the PRECAMA study. BMJ Nutrition, Prevention & Health, Vol. 5, Issue. 1, p. 1.

Pedro-Botet, Laura Muns, Maria D. Solà, Rosa Fontané, Laia Climent, Elisenda Benaiges, David Flores-Le Roux, Juana A. and Pedro-Botet, Juan 2022. Level of understanding and consumption of ultra-processed food in a Mediterranean population: A cross-sectional study. Nutrition, Metabolism and Cardiovascular Diseases, Vol. 32, Issue. 4, p. 889.

Oviedo-Solís, Cecilia Isabel Monterrubio-Flores, Eric A. Cediel, Gustavo Denova-Gutiérrez, Edgar and Barquera, Simón 2022. Relative Validity of a Semi-Quantitative Food Frequency Questionnaire to Estimate Dietary Intake According to the NOVA Classification in Mexican Children and Adolescents. Journal of the Academy of Nutrition and Dietetics, Vol. 122, Issue. 6, p. 1129.

Download full list

Article contents

Public Health Nutrition special issue on ultra-processed foods

Abstract

Acknowledgement

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests