In: Christensen , T , Nielsen , C W , Valsta , L , Aalto , S , Haario , P , Reinivuo , H , Virtanen , S , Pastell , H , Nieminen , J , Reykdal , Ó , Axelsson , C , Petrelius-Sipinen , J , Kielland , E , Østerholt Dalane , J , Hauger Carlsen , M , Salupuu , K & Jõgi , Ä 2020 , Food composition data and labelling - A challenging dialogue . TemaNord , no. 508 , Nordisk Ministerråd , Copenhagen . https://doi.org/10.6027/temanord2020-508
This report describes the activities of two projects that were carried out us-ing the infrastructure of the Nordic Food Analysis Network, i.e. the 'Nordic Food Composition Data for Labelling (NordCoLa)' project carried out between 2018 and 2020, and the preceding project 'Fostering the quality and use of Nordic food composition data', carried out under the Finnish Presidency of the Nordic Council of Ministers in 2016. The primary aim of the NordCoLa project was to evaluate the needs, gaps and synergies of the Nordic food consumption databases in relation to the data to be used to implement the new European nutrient labelling legislation. This was to ensure quality food composition data in the Nordic countries for food producers and other users for nutrient labelling purposes. The results of the projects are summarised in this report.
International audience ; Within the European project called EXPOCHI (Individual food consumption data and exposure assessment studies for children) funded by the European Food Safety Authority, 14 different European individual food consumption databases of children were used to conduct harmonised dietary exposure assessments for lead, chromium, selenium and food colours. For this, two food categorisation systems were developed to categorise classify the food consumption data in such a way that these could be linked to occurrence data of the considered compounds. One served for the exposure calculations of lead, chromium and selenium. and was based on the SCOOP Tasks Report 3.2.11. TThe second system was developed for the exposure assessments of food colours and was based on the European Parliament and Council Directive 94/36/EC. The food categories defined for the lead, chromium and selenium exposure calculations were used as a basis for the food colour categorisation, with adaptations to optimize the linkage with the food colour occurrence data. With this work, an initial impetus was given to make user-friendly food categorisation systems for contaminants and food colours applicable on a pan-European level. However, a set of difficulties were encountered in creating a common food categorisation system for 14 individual food consumption databases that differ in type and number of foods coded and in level of detail provided about the consumed foods. The work done and the problems encountered in this project can be of interest for future projects in which food consumption data will be collected on a pan-European level and used for common exposure assessments.
International audience ; Within the European project called EXPOCHI (Individual food consumption data and exposure assessment studies for children) funded by the European Food Safety Authority, 14 different European individual food consumption databases of children were used to conduct harmonised dietary exposure assessments for lead, chromium, selenium and food colours. For this, two food categorisation systems were developed to categorise classify the food consumption data in such a way that these could be linked to occurrence data of the considered compounds. One served for the exposure calculations of lead, chromium and selenium. and was based on the SCOOP Tasks Report 3.2.11. TThe second system was developed for the exposure assessments of food colours and was based on the European Parliament and Council Directive 94/36/EC. The food categories defined for the lead, chromium and selenium exposure calculations were used as a basis for the food colour categorisation, with adaptations to optimize the linkage with the food colour occurrence data. With this work, an initial impetus was given to make user-friendly food categorisation systems for contaminants and food colours applicable on a pan-European level. However, a set of difficulties were encountered in creating a common food categorisation system for 14 individual food consumption databases that differ in type and number of foods coded and in level of detail provided about the consumed foods. The work done and the problems encountered in this project can be of interest for future projects in which food consumption data will be collected on a pan-European level and used for common exposure assessments.