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,
Tseng, Marilyn
Barnoya, Joaquin
Kruger, Salome
Lachat, Carl
Vandevijvere, Stefanie
and
Villamor, Eduardo
2018.
Disclosures of Coca-Cola funding: transparent or opaque?.
Public Health Nutrition,
Vol. 21,
Issue. 9,
p.
1591.
Fardet, Anthony
2018.
Vers une classification des aliments selon leur degré de transformation : approches holistique et/ou réductionniste.
Pratiques en nutrition,
Vol. 14,
Issue. 56,
p.
32.
Toribio-Mateas, Miguel
2018.
Harnessing the Power of Microbiome Assessment Tools as Part of Neuroprotective Nutrition and Lifestyle Medicine Interventions.
Microorganisms,
Vol. 6,
Issue. 2,
p.
35.
Silva, Fernanda Marcelina
Giatti, Luana
de Figueiredo, Roberta Carvalho
Molina, Maria del Carmen Bisi
de Oliveira Cardoso, Letícia
Duncan, Bruce Bartholow
and
Barreto, Sandhi Maria
2018.
Consumption of ultra-processed food and obesity: cross sectional results from the Brazilian Longitudinal Study of Adult Health (ELSA-Brasil) cohort (2008–2010).
Public Health Nutrition,
Vol. 21,
Issue. 12,
p.
2271.
Sievert, Katherine
Lawrence, Mark
Naika, Asaeli
and
Baker, Phillip
2019.
Processed Foods and Nutrition Transition in the Pacific: Regional Trends, Patterns and Food System Drivers.
Nutrients,
Vol. 11,
Issue. 6,
p.
1328.
Leme, Ana Carolina Barco
Fisberg, Regina Mara
Thompson, Debbe
Philippi, Sonia Tucunduva
Nicklas, Theresa
and
Baranowski, Tom
2019.
Brazilian Children’s Dietary Intake in Relation to Brazil’s New Nutrition Guidelines: a Systematic Review.
Current Nutrition Reports,
Vol. 8,
Issue. 2,
p.
145.
Nelson, David H.
Prescott, Susan L.
Logan, Alan C.
and
Bland, Jeffrey S.
2019.
Clinical Ecology—Transforming 21st-Century Medicine with Planetary Health in Mind.
Challenges,
Vol. 10,
Issue. 1,
p.
15.
Prescott, Susan L.
and
Logan, Alan C.
2019.
Narrative Medicine Meets Planetary Health: Mindsets Matter in the Anthropocene.
Challenges,
Vol. 10,
Issue. 1,
p.
17.
Pereira, Rafaela Corrêa
de Angelis-Pereira, Michel Cardoso
and
Carneiro, João de Deus Souza
2019.
Exploring claims and marketing techniques in Brazilian food labels.
British Food Journal,
Vol. 121,
Issue. 7,
p.
1550.
Kim, Hyunju
Rebholz, Casey M.
Wong, Eugenia
and
Buckley, Jessie P.
2020.
Urinary organophosphate ester concentrations in relation to ultra-processed food consumption in the general US population.
Environmental Research,
Vol. 182,
Issue. ,
p.
109070.
Canhada, Scheine Leite
Luft, Vivian Cristine
Giatti, Luana
Duncan, Bruce Bartholow
Chor, Dora
Fonseca, Maria de Jesus M da
Matos, Sheila Maria Alvim
Molina, Maria del Carmen Bisi
Barreto, Sandhi Maria
Levy, Renata Bertazzi
and
Schmidt, Maria Inês
2020.
Ultra-processed foods, incident overweight and obesity, and longitudinal changes in weight and waist circumference: the Brazilian Longitudinal Study of Adult Health (ELSA-Brasil).
Public Health Nutrition,
Vol. 23,
Issue. 6,
p.
1076.
Toribio-Mateas, Miguel
and
Bester, Adri
2020.
Precision Medicine for Investigators, Practitioners and Providers.
p.
445.
Unsain, Ramiro Fernandez
Ulian, Mariana Dimitrov
de Morais Sato, Priscila
Sabatini, Fernanda
da Silva Oliveira, Mayara Sanay
and
Scagliusi, Fernanda Baeza
2020.
“Macho food”: Masculinities, food preferences, eating practices history and commensality among gay bears in São Paulo, Brazil.
Appetite,
Vol. 144,
Issue. ,
p.
104453.
Montero-Salazar, Henry
Donat-Vargas, Carolina
Moreno-Franco, Belén
Sandoval-Insausti, Helena
Civeira, Fernando
Laclaustra, Martín
and
Guallar-Castillón, Pilar
2020.
High consumption of ultra-processed food may double the risk of subclinical coronary atherosclerosis: the Aragon Workers’ Health Study (AWHS).
BMC Medicine,
Vol. 18,
Issue. 1,
Adams, Jean
Hofman, Karen
Moubarac, Jean-Claude
and
Thow, Anne Marie
2020.
Public health response to ultra-processed food and drinks.
BMJ,
p.
m2391.
van Kesteren, Rosa
and
Evans, Adrian
2020.
Cooking without thinking: How understanding cooking as a practice can shed new light on inequalities in healthy eating.
Appetite,
Vol. 147,
Issue. ,
p.
104503.
Baker, Phillip
Machado, Priscila
Santos, Thiago
Sievert, Katherine
Backholer, Kathryn
Hadjikakou, Michalis
Russell, Cherie
Huse, Oliver
Bell, Colin
Scrinis, Gyorgy
Worsley, Anthony
Friel, Sharon
and
Lawrence, Mark
2020.
Ultra‐processed foods and the nutrition transition: Global, regional and national trends, food systems transformations and political economy drivers.
Obesity Reviews,
Vol. 21,
Issue. 12,
Sadler, Christina R.
Grassby, Terri
Hart, Kathryn
Raats, Monique
Sokolović, Milka
and
Timotijevic, Lada
2021.
Processed food classification: Conceptualisation and challenges.
Trends in Food Science & Technology,
Vol. 112,
Issue. ,
p.
149.
Martins, Carla Adriano
Andrade, Giovanna Calixto
Oliveira, Mariana Fernandes Brito de
Rauber, Fernanda
Castro, Inês Rugani Ribeiro de
Couto, Marcia Thereza
and
Levy, Renata Bertazzi
2021.
“Healthy”, “usual” and “convenience” cooking practices patterns: How do they influence children's food consumption?.
Appetite,
Vol. 158,
Issue. ,
p.
105018.
The concept of NOVA as a way to classify foods is widely accepted in the scientific literature and official international reports( Reference Monteiro, Cannon and Moubarac 1 ), and more recently also in leading lay media( Reference Jacobs and Richtel 2 ), as crucial to the understanding of the current relationship between food, and nutrition, and well-being, health and disease. A recent special issue of Public Health Nutrition included many studies that examined the consumption of ultra-processed food and drink products and their effect on the quality of diets and on health and disease in dozens of countries. The authors of these studies have strengthened and advanced understanding of why these products, manufactured and consumed as they now are in ever-increasing quantity throughout the world, are severely damaging public health.
But some authors and interests do not accept the principle and practice of categorizing foods based on level and purpose of processing. A recent commentary published in the American Journal of Clinical Nutrition (AJCN) by Gibney et al. purported to be a ‘critical appraisal’ of NOVA as a system of classifying foods( Reference Gibney, Forde and Mullally 3 ). Here, we correct misstatements about NOVA in the ‘appraisal’ and rebut the authors’ argument that ‘there seems to be little advantage from the use of the NOVA classification compared with the current epidemiologic approach’. We also consider the larger issue of scientific responsibility for publishing opposing views on controversial topics.
Corrections and clarifications
Claims made in the ‘appraisal’ are here shown in italics. Our response follows.
1. ‘Because the definition of UPFDs [ultra-processed foods] is based on the macronutrient contents of foods, it is challenging to see how this classification could contribute to the study of dietary links to diseases that are not strongly related to overall energy intake, such as neural tube defects’ ( Reference Gibney, Forde and Mullally 3 ).
Gibney et al.’s claim fails to understand NOVA criteria. The NOVA classification is based on the nature, purpose and extent of food processing, as described in detail in their reference number 60( Reference Gibney, Forde and Mullally 3 ). It is not based on macronutrient content, although ultra-processed foods are indeed strongly associated with dietary macronutrient imbalances. Additionally, the fact that ultra-processed foods are associated with macronutrient imbalances obviously does not imply that their consumption only affects diseases related to energy intake.
2. ‘To date, most of the studies that used the NOVA classification have been limited to quantifying the contribution of UPFDs to intakes of added sugar or energy or to variations in micronutrient intakes’ ( Reference Gibney, Forde and Mullally 3 ).
The authors are unfamiliar with the NOVA literature. This claim refers to just two of the relevant studies. Most studies that use NOVA to assess the impact of ultra-processed foods on diet quality extend beyond sugar and micronutrients. For instance, studies conducted in Brazil( Reference Louzada, Martins and Canella 4 , Reference Louzada, Martins and Canella 5 ), the USA( Reference Martinez Steele, Baraldi and Louzada 6 , Reference Martinez Steele, Popkin and Swinburn 7 ) and Canada( Reference Moubarac, Batal and Louzada 8 ) show that as well as increasing added sugar and decreasing micronutrients, the more ultra-processed foods consumed, the greater the energy density of the overall diet and total energy intake, the greater the content of unhealthy fats, and the lower the content of protein and dietary fibre.
3. ‘That the intake of UPFDs correlates highly with added sugar intake should not be surprising because the term “added sugars” is a major defining element of the UPFD classification system’ ( Reference Gibney, Forde and Mullally 3 ).
This claim also fails to understand the criteria. Added sugars are contained in ultra-processed foods, but also in two other NOVA categories: processed culinary ingredients (as table sugar) and many processed foods (as for example fruits in syrup)( Reference Monteiro, Cannon and Moubarac 1 ).
4. ‘To our knowledge no arguments have been offered as to how, or if, food processing in any way constitutes a risk to consumer health through adverse nutrient intake or chemical or microbiological hazards’ ( Reference Gibney, Forde and Mullally 3 ).
This misstatement is based on shifting the focus from ‘ultra-processed’ to ‘processed’ foods. Practically all food is processed in some sense and in some way. The term ‘processing’ is very general and not helpful. Judgements on food processing as such have little or no meaning, as NOVA authors have constantly repeated( Reference Monteiro, Cannon and Moubarac 1 , Reference Monteiro 9 , Reference Moodie, Stuckler and Monteiro 10 ). Food scientists and technologists and food manufacturers rightly emphasize the benefits of originally ancient as well as some relatively novel processes such as drying, non-alcoholic fermentation, chilling and freezing, pasteurization and vacuum-packing. The NOVA classification makes distinctions between types, uses and effects of food processing. Definitions need to be meaningful, detailed and objective in order to move research away from vague language such as ‘food processing’ and towards terminology that is specific, coherent, clear, comprehensive and workable. This is what NOVA does( Reference Monteiro, Cannon and Moubarac 1 ).
5. ‘The application of this system in these areas is not without substantial research challenges and contradictory findings. For example, in contrast to the several data sets that support an association of obesity and intake of UPFDs … an analysis of the UK National Diet and Nutrition Survey shows no such role, when such analysis was corrected for known confounders of obesity’ ( Reference Gibney, Forde and Mullally 3 ).
In fact, all studies except the one cited in the ‘appraisal’ show associations of ultra-processed foods with negative health effects. Gibney et al. also fail to acknowledge two papers from a large well-controlled cohort study that show a clear dose–response between consumption of ultra-processed foods and 9-year incidence of obesity( Reference Mendonça, Pimenta and Gea 11 ) and of hypertension( Reference Mendonça, Lopes and Pimenta 12 ) – the paper on obesity being published in 2016 in AJCN. The claim that only the UK cross-sectional study corrected for known confounders is also incorrect and misleading.
6. ‘With regard to the use of the NOVA food classification in the development of food-based dietary guidelines, we show that the very broad definition of UPFDs makes this impossible’ ( Reference Gibney, Forde and Mullally 3 ).
In fact, it is obviously possible, as demonstrated by the official national guidelines issued by the Ministry of Health of Brazil in 2014( 13 ), the product of an extensive consultation with nutrition professionals from all regions and states, and then a further public consultation( Reference Monteiro, Cannon and Moubarac 14 ). Based on a thorough review of national dietary guidelines, the FAO identifies Brazil as one of the four forward-thinking countries whose governments are now taking the lead in developing healthy and sustainable national dietary guidelines( 15 ). The recent official national dietary guidelines for Uruguay( 16 ), a country with innovative and efficient public health policies including on tobacco control( 17 ), are also based on the NOVA system.
7. ‘The globalization of food chain is almost always associated with large transnational food corporations […] Nonetheless, only 10 % of processed packaged food sales are considered “traded products”, that is, traded internationally […] Evidence does not support the view that the globalization of food is the driver of increased intakes of UPFDs in low- to middle-income countries but rather that this is driven by small indigenous companies’ ( Reference Gibney, Forde and Mullally 3 ).
Again, a lack of understanding of NOVA criteria. Processed packaged foods are not a proxy for ultra-processed foods. Processed packaged foods may be minimally processed foods (such as flour), processed culinary ingredients (such as vegetable oils) and processed foods (such as vegetables in brine), as well as ultra-processed foods. Further, this claim is contradicted by a report published by the Pan American Health Organization (their reference number 2) on annual sales of (correctly defined) ultra-processed products in thirteen Latin American countries. The report concludes: ‘The markets of several ultra-processed products are oligopolistic, dominated by transnational corporations. The market for two leading types of ultra-processed products – carbonated soft drinks and sweet or savory snacks – is highly concentrated, with more than two thirds of all sales captured by two companies’( 18 ). The reference that the authors provide to support their claim ‘that the dominant suppliers of packaged, and thus mainly processed, foods are, in fact, small-to medium-sized enterprises’, their reference number 52, is a paper on food addiction.
The above claims are examples of factual and conceptual errors in the ‘appraisal’. Following are statements that reflect differences in values and matters of judgement.
8. ‘Thus, the NOVA classification is, by comparison, a rather simple and crude system of classifying foods into categories on the basis of their degree of processing and is in stark contrast to many existing food-classification systems’ ( Reference Gibney, Forde and Mullally 3 ).
NOVA is simple, in that it places every foodstuff into one of four groups, but it is not crude. Rather than grouping foods according to the main nutrients they provide, foods are grouped according to the nature, purpose and extent of food processing, meticulously set out in the paper cited as Gibney et al.’s reference number 60( Reference Monteiro, Cannon and Moubarac 1 ). But perhaps more important than level of complexity is whether the system of categorization works to predict the nutritional quality of diets and risk of disease. The evidence to date suggests that it does( Reference Monteiro, Cannon and Moubarac 1 ).
9. ‘To our knowledge, no data exist regarding the average consumer’s ability in terms of income, culinary skills, available culinary facilities, and time or food availability to uphold the case that the abandonment of UPFDs would significantly alter nutritional well-being. Without such data, there may be some ethical issues that would need to be considered before the mass abandonment of UPFD intake is recommended’ ( Reference Gibney, Forde and Mullally 3 ).
Where the cost of ultra-processed foods is generally lower than the cost of other food items, such as in the UK( Reference Moubarac, Claro and Baraldi 19 ), eating well is more expensive. Given known associations of ultra-processed foods with poorer nutrient adequacy, a more salient ethical issue is the affordability and achievability of healthy meals. Fiscal policies that combine taxation on ultra-processed foods with subsidies on whole or minimally processed foods can and should be used, as well as policies and programmes that alleviate poverty. Lack of knowledge of cooking, absence of proper kitchens and time pressures also all impede healthy eating. Where ultra-processed foods cost more, however, such as in Brazil( Reference Moubarac, Claro and Baraldi 19 ), eating well costs less, and displacement of freshly prepared meals by ready-to-consume ultra-processed foods, including those now being reformulated, is the ethical issue.
10. ‘… advocates of the NOVA food classification are critical of existing food categorizations, claiming that they are outdated and that their use in nutritional epidemiology focuses unnecessarily on nutrients and ignores the putative major impact of food processing, including the use of food additives on health and well-being … To perpetuate the myth that the modern approach to food classification is both static and outdated is both untrue and irresponsible’ ( Reference Gibney, Forde and Mullally 3 ).
While we do state that ‘From the point of view of human health, at present, the most salient division of foods and drinks is in terms of their type, degree and purpose of processing’( Reference Monteiro 9 ), the NOVA approach to food classification does not overlook differences in nutrient composition between foods that belong to a same NOVA food group. Actually, the NOVA approach is necessary to make meaningful the division of foods according to their content of specific nutrients, as it can be seen in the new nutrient profile model developed by the Pan American Health Organization( 20 ). The NOVA approach is a crucial development for a number of reasons. One is that it identifies ultra-processed foods. This is the food group consistently shown to be mainly responsible for currently common population dietary nutrient imbalances such as excessive intakes of total energy, added sugars and unhealthy fats, and the low intakes of dietary fibre, micronutrients and other bioactive compounds( Reference Monteiro, Cannon and Moubarac 1 , Reference Martínez Steele and Monteiro 21 , Reference Julia, Martinez and Allès 22 ). NOVA also identifies precisely the group of whole or minimally processed foods that, in great variety and mostly from plant sources, are the foundation for healthy and sustainable diets( Reference Mozaffarian and Ludwig 23 , Reference Katz and Meller 24 ). Further, NOVA identifies two other food groups, processed culinary ingredients and processed foods, that in modest amounts turn whole or minimally processed foods into diversified, nutritionally balanced, culturally sound, delicious, freshly prepared dishes and meals( Reference Monteiro, Cannon and Moubarac 14 ). Use of NOVA in examination of population dietary data is in our view essential in shaping rational sustainable meal- and food-based dietary guidelines and subsequent policies and programmes needed to protect public health and to improve the food environment. On another note, the authors’ choice of the word ‘irresponsible’ is regrettable and unproductive in terms of advancing scientific discourse.
How to handle scientific controversy
A surprising observation about the ‘appraisal’ is the number of oversights that usually would not (and should not) escape peer review. One of the studies cited as supporting an association between ultra-processed foods and obesity (their reference 17) is a paper on famine in Somalia. Their reference 10 is repeated as reference 13 with incorrect authors. And as noted above, their second reference 52, cited to support the claim ‘that the dominant suppliers of packaged, and thus mainly processed, foods are, in fact, small-to medium-sized enterprises’, is a paper on food addiction.
Also, while the conflicted interest of the lead author as a current consultant to Nestlé and to Cereal Partners Worldwide is acknowledged, the second author’s conflict of interest, his employment as a Senior Scientist at Nestlé’s Research Centre at Lausanne from April 2010 to October 2014 (https://sg.linkedin.com/in/ciaran-forde-0766995), was not mentioned. The fourth author has also consulted with a public relations firm (http://www.ucd.ie/foodandhealth/oldsite/people/academicstaff/dreileengibney/) whose current clients include McDonald’s (http://www.drurypn.ie/clients/), although this consultation was possibly not within the past three years specified in AJCN’s conflict of interest policy.
Such errors and oversights detract from the more important scientific questions that need to be asked in an emerging area of research.
A common practice followed by journal editors when considering a polemical contribution is to invite a full response in the same issue of the journal. However, no such invitation was made in the case of the ‘appraisal’. Challenges and debates are an essential part of the scientific endeavour, but AJCN provided no forum for this either as an invited response or as a letter, leaving Gibney et al.’s inaccurate claims and statements unchallenged in the journal.
The NOVA classification system challenges a much older and dominant system of classifying foods based on nutrient composition. Of course, it should be appraised. But scientific advances come from the exchange of well-reasoned and supported arguments, and from balanced debate. We invite further discourse on the topic of ultra-processed foods, for the sake of science and public health. We also respectfully suggest that all journals take on the responsibility of encouraging the informed and constructive exchange of ideas in controversial areas.
Acknowledgements
Financial support: This research received no specific grant from any funding agency in the public, commercial or not-for-profit sectors. Conflict of interest: None. Authorship: All authors participated in the conception and drafting of the commentary. Ethics of human subject participation: Not applicable.