TY - JOUR T1 - Position paper on the use of an “estimated acceptable concentration” (EAC) as basis for a control policy's action level for carcinogens unintentionally present in food JF - Trends in Food Science & Technology Y1 - 2020 A1 - Wendie Claeys A1 - Bruno De Meulenaer A1 - S. De Saeger A1 - Matthys, Christophe A1 - Pussemier, Luc A1 - Rajkovic, Andreja A1 - Scippo, Marie-Louise A1 - Christiane Vleminckx A1 - Van Huffel, Xavier A1 - Peter Hoet KW - Carcinogen KW - Food safety management KW - genotoxic KW - ‘Margin of exposure’ (MOE) AB -

Background

In the absence of legal maximum limits, the competent authority may act if high contamination levels that endanger public health are identified. A pragmatic approach to identify whether a value is potentially too high, is to set action levels which, if exceeded, call for action involving a notification, withdrawal of the food from the market, legal measures or an investigation.

Scope and approach

As control policy's action levels should be considered as part of risk management, which is not always based on scientific risk assessment alone, the concept of an ‘estimated acceptable concentration’ (EAC) is introduced. The EAC is defined as a risk-based level of a substance in a food below which the exposure to the substance via the food does not pose a concern or a risk for public health. This EAC concept is substantiated by a quick scoping review of scientific literature and reports.

Key findings and conclusions

Case-dependent, whether a threshold effect level can be defined or not, the EAC is calculated based on the health-based guidance value or the margin of exposure (MOE) approach. It can serve as a basis for a food safety management action level, allowing food inspectors to take uniform actions and providing clarity to food business operators. Application of the EAC should be viewed in the appropriate framework, including consideration of the tolerable risk level and uncertainties. Although the presented concept addresses exposure to an individual substance from a single source, the combined exposure to multiple chemicals and exposome can be included.

M3 - 10.1016/j.tifs.2020.11.003 ER -