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Letters to the Editor

Published online by Cambridge University Press:  01 October 2009

Nicole Darmon
Nicole Darmon*
Affiliation:
INRA, UMR1260 ‘Nutriments Lipidiques et Prévention des Maladies Métaboliques’, INSERM, U476, Univ Aix-Marseille 1, Univ Aix-Marseille 2, Faculté de Médecine, IPHM-IFR 125, Marseille, F-13385, France
*
Email: nicole.darmon@univmed.fr
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Abstract

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Type
Letter to the Editor
Information
Public Health Nutrition , Volume 12 , Issue 10 , October 2009 , pp. 1967 - 1968
Copyright
Copyright © The Author 2009

Nutrient profiling

The good, the bad, and the ultra-processed

Madam

In his recent invited commentary, Carlos Monteiro proposes a classification of foods based on the type and intensity of food processing(Reference Monteiro1). In particular, he identifies a category of ‘ultra-processed foods’, the consumption of which should be avoided to prevent disease and enhance well-being. In his fairly provocative title, he states that ‘The issue is not food, nor nutrients, so much as processing’.

Yet, we eat foods and we need nutrients, which is why we need efficient food-based approaches to meeting nutrient requirements. The evidence for a link between nutrition and health has prompted many countries to design food-based dietary guidelines(2). However, the implementation of these recommendations may be impaired by their imprecision(Reference Ferguson, Darmon, Briend and Premachandra3). Indeed, they are based on wide food categories, not on individual foods in the form actually bought by consumers. In that sense, those guidelines are wrongly called ‘food’-based dietary guidelines, because they do not provide recommendations on individual foods, but on categories of foods, the definition of which is very imprecise. As a result, clear recommendations on foods composed of more than one food category, such as mixed dishes and snacks, are lacking.

Moreover, food category-based recommendations are useless when it comes to choosing between two foods that have the same selling name but different ingredient and nutrient compositions and different prices. However, stigmatising a category as ‘ultra-processed foods’ will not help to overcome these limitations, because the classification Dr Monteiro proposes also lacks precision, and is therefore unlikely to be useful and operational.

Given the actual complexity of the food supply, we urgently need guidelines that present a real guarantee of optimal nutrition. Nutrient profiling systems, by providing clear information on the nutritional quality of individual foods, and explicit recommendations on the consumption of these foods, could be the missing link between nutrient-based recommendations and food category-based recommendations.

Initially intended for consumer protection and the regulation of health and nutrition claims in Europe(4), nutrient profiles can be used for different purposes, including food labelling, marketing controls, taxation/subsidies policies or product reformulation. Some of them could also be used for nutrition education and information.

This is the case with the SAIN,LIM nutrient profiling system proposed by the French Food Safety Agency(5). This system is not based on the idea that there are good foods and bad foods, but on the notion that all foods may present positive and negative aspects for health.

The SAIN,LIM system provides factual information rather than a global judgement. The positive aspects are estimated through the SAIN (score of nutritional adequacy of individual foods, calculated as the mean percentage nutrient adequacy per 100 kcal), and the negative ones through the LIM (score of nutrients whose intakes should be limited, calculated as the mean percentage of maximal recommended values for salt (as sodium), saturated fatty acids and added sugars per 100 g).

Each food can be represented on a graph (SAIN = y axis and LIM = x axis) and, by defining threshold values for both scores, each food can be classified into one of four possible classes. With this system, most unprocessed and unrefined foods fall into class 1 (i.e. the most favourable nutrient profile: high SAIN, low LIM); whereas most energy-dense nutrient-poor foods fall into class 4. Because there is no compensation between the two scores, and because artificially added nutrients are not taken into account when calculating the SAIN score, using this system or a similar one should encourage the formulation of food products that are low in energy, fat, sugar and salt, and also rich in essential nutrients and other beneficial micro-constituents naturally present in foods.

Unfortunately, the nutrient profiling system that is going to be enforced at the European level to control health and nutrition claims(6) does not present such advantages. It will likely induce the development of products that, in order to ‘pass’ the system, will be moderately loaded with fat, sugar and/or salt, and in order to have something to claim, may be artificially fortified with vitamins, minerals or other ingredients considered as positive.

Clearly, promoting the consumption of such foods, by authorising them to display nutrition and health claims, will not help people to balance their diets. On that point, I fully agree with Dr Monteiro when he says that ‘ “premium” ultra-processed foods are not a solution’. But well-done nutrient profile systems could provide a rigorous approach to overcome these drawbacks by helping to make the difference between foods that really contribute to healthy eating and foods that will instead induce nutrient inadequacy(Reference Darmon, Vieux, Maillot, Volatier and Martin7).

References

1.Monteiro, CA (2009) Nutrition and health. The issue is not food, nor nutrients, so much as processing (Invited commentary). Public Health Nutr 12, 729731.CrossRefGoogle ScholarPubMed
2.World Health Organization/Food and Agriculture Organization of the United Nations (1998) Preparation and Use of Food-based Dietary Guidelines. Report of a Joint Expert Consultation. WHO Technical Report Series no. 880. Geneva: WHO.Google Scholar
3.Ferguson, EL, Darmon, N, Briend, A & Premachandra, IM (2004) Food-based dietary guidelines can be developed and tested using linear programming analysis. J Nutr 134, 951957.CrossRefGoogle ScholarPubMed
4.The European Parliament and the Council of the European Union (2006) Regulation (EC) No 1924/2006 of the European Parliament and of the Council of 20 December 2006 on nutrition and health claims made on foods. Official Journal of the European Union L404, 925.Google Scholar
5.Agence Française de Sécurité Sanitaire des Aliments (2008) Définition de profils nutritionnels pour l’accès aux allégations nutritionnelles et de santé: propositions et arguments (Setting of nutrient profiles for accessing nutrition and health claims: proposals and arguments). Report June 2008. http://www.afssa.fr/Documents/NUT-Ra-Profils.pdf (accessed July 2009).Google Scholar
6.European Commission, Health and Consumers Directorate-General (2009) Commission decision on the setting of nutrient profiles pursuant article 4(1) of regulation n°1924/2006 of the European parliament an the council of 20 December 2006 on nutrition and health claims made on foods. Luxembourg: European Commission.Google Scholar
7.Darmon, N, Vieux, F, Maillot, M, Volatier, JL & 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. Am J Clin Nutr 89, 12271236.CrossRefGoogle Scholar