Your search keyword '"Azaïs-Braesco V"' showing total 4 results

1. Prévalence et déterminants de l’anémie chez le jeune enfant en Afrique francophone – Implication de la carence en fer

Author

Diouf, S., Folquet, M., Mbofung, K., Ndiaye, O., Brou, K., Dupont, C., N’dri, D., Vuillerod, M., Azaïs-Braesco, V., and Tetanye, E.

Published

2015

2. The SENS algorithm-a new nutrient profiling system for food labelling in Europe.

Author

Darmon N, Sondey J, Azaïs-Braesco V, and Maillot M

Subjects

Beverages, Cheese, Dairy Products, Dietary Fats, Edible Grain, Europe, European Union, Food Labeling legislation & jurisprudence, Health Promotion legislation & jurisprudence, Humans, Nutrition Policy, Algorithms, Food classification, Food Labeling methods, Food Labeling standards, Health Promotion methods, Nutritive Value

Abstract

Background/objectives: In response to the European regulation on nutrition and health claims, France proposed in 2008 the SAIN,LIM profiling system that classifies foods into four classes based on a nutrient density score called 'SAIN', a score of nutrients to limit called 'LIM', and one primary threshold on each score. We present here the SENS algorithm, a new nutrient profiling system adapted from the SAIN,LIM to be operational for simplified nutrition labelling in line with the European regulation on food information to consumers., Subjects/methods: The main changes made to SAIN,LIM to get SENS were to introduce food categories and sub-categories ('Beverages', 'Added Fats' and 'Other Solid Foods' sub-categorised into 'cereals', 'cheese', 'other dairy products', 'eggs', 'fish' and 'others'), reduce the number of nutrients, introduce category-specific nutrients and category-specific weighting for some nutrients, replace French recommendations with European reference intakes, and add secondary thresholds. Each food and non-alcoholic beverage from the 2013-CIQUAL French composition database (n = 1065) was assigned one SENS class. Distribution of foods according to the four SENS classes was described by food groups (n = 26)., Results: The SENS classification was consistent with the recommendations to consume large amounts of whole grains, vegetables and fruits, and moderate intake of fats, sugars, meats, caloric beverages and salt. For most groups (19/26), foods were distributed across at least three SENS classes., Conclusions: The SENS is a nutrition-sensitive system that discriminates foods between and within food categories. It preserves the strengths of the initial SAIN,LIM while making it operational for simplified nutrition labelling in Europe.

Published

2018

3. From the SAIN,LIM system to the SENS algorithm: a review of a French approach of nutrient profiling.

Author

Tharrey M, Maillot M, Azaïs-Braesco V, and Darmon N

Subjects

Adult, Algorithms, Biomedical Research methods, Biomedical Research trends, Child, Child Nutritional Physiological Phenomena, Congresses as Topic, Dietetics methods, Dietetics trends, France, Health Promotion trends, Humans, Nutritional Sciences methods, Nutritional Sciences trends, Nutritive Value, Societies, Scientific, Diet, Healthy, Food Packaging legislation & jurisprudence, Food Packaging standards, Food Packaging trends, Food, Preserved adverse effects, Food-Processing Industry legislation & jurisprudence, Food-Processing Industry trends, Health Promotion methods

Abstract

Nutrient profiling aims to classify or rank foods according to their nutritional composition to assist policies aimed at improving the nutritional quality of foods and diets. The present paper reviews a French approach of nutrient profiling by describing the SAIN,LIM system and its evolution from its early draft to the simplified nutrition labelling system (SENS) algorithm. Considered in 2010 by WHO as the 'French model' of nutrient profiling, SAIN,LIM classifies foods into four classes based on two scores: a nutrient density score (NDS) called SAIN and a score of nutrients to limit called LIM, and one threshold on each score. The system was first developed by the French Food Standard Agency in 2008 in response to the European regulation on nutrition and health claims (European Commission (EC) 1924/2006) to determine foods that may be eligible for bearing claims. Recently, the European regulation (EC 1169/2011) on the provision of food information to consumers allowed simplified nutrition labelling to facilitate consumer information and help them make fully informed choices. In that context, the SAIN,LIM was adapted to obtain the SENS algorithm, a system able to rank foods for simplified nutrition labelling. The implementation of the algorithm followed a step-by-step, systematic, transparent and logical process where shortcomings of the SAIN,LIM were addressed by integrating specificities of food categories in the SENS, reducing the number of nutrients, ordering the four classes and introducing European reference intakes. Through the French example, this review shows how an existing nutrient profiling system can be specifically adapted to support public health nutrition policies.

Published

2017

4. A review of total & added sugar intakes and dietary sources in Europe.

Author

Azaïs-Braesco V, Sluik D, Maillot M, Kok F, and Moreno LA

Subjects

Beverages analysis, Dairy Products analysis, Europe, Fruit chemistry, Humans, Nutrition Assessment, Nutrition Policy, Nutrition Surveys, Socioeconomic Factors, Diet, Food Additives analysis, Nutritive Sweeteners analysis

Abstract

Public health policies, including in Europe, are considering measures and recommendations to limit the intake of added or free sugars. For such policies to be efficient and monitored, a precise knowledge of the current situation regarding sugar intake in Europe is needed. This review summarizes published or re-analyzed data from 11 representative surveys in Belgium, France, Denmark, Hungary, Ireland, Italy, Norway, The Netherlands, Spain and the UK. Relative intakes were higher in children than in adults: total sugars ranged between 15 and 21% of energy intake in adults and between 16 and 26% in children. Added sugars (or non-milk extrinsic sugars (NMES), in the UK) contributed 7 to 11% of total energy intake in adults and represented a higher proportion of children's energy intake (11 to 17%). Educational level did not significantly affect intakes of total or added sugars in France and the Netherlands. Sweet products (e.g. confectionery, chocolates, cakes and biscuits, sugar, and jam) were major contributors to total sugars intake in all countries, genders and age groups, followed by fruits, beverages and dairy products. Fruits contributed more and beverages contributed less to adults' total sugars intakes than to children's. Added sugars were provided mostly by sweet products (36 to 61% in adults and 40 to 50% in children), followed by beverages (12 to 31% in adults and 20 to 34% in children, fruit juices excluded), then by dairy products (4 to 15% in adults and 6 to 18% in children). Caution is needed, however, as survey methodologies differ on important items such as dietary data collection, food composition tables or estimation of added sugars. Cross-country comparisons are thus not meaningful and overall information might thus not be robust enough to provide a solid basis for implementation of policy measures. Data nevertheless confirm that intakes of total and added sugars are high in the European countries considered, especially in children, and point to sweet products and beverages as the major contributors to added sugar intakes.

Published

2017