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2. Re-evaluation of the existing health-based guidance values for copper and exposure assessment from all sources

Author

More, Simon John, Bampidis, Vasileios, Benford, Diane, Bragard, Claude, Halldorsson, Thorhallur Ingi, Hernández-Jerez, Antonio F, Bennekou, Susanne Hougaard, Koutsoumanis, Kostas, Lambré, Claude, Machera, Kyriaki, Mullins, Ewen, Nielsen, Søren Saxmose, Schlatter, Josef R, Schrenk, Dieter, Turck, Dominique, Younes, Maged, Boon, Polly, Ferns, Gordon Aa, Lindtner, Oliver, Smolders, Erik, Wilks, Martin, Bastaki, Maria, de Sesmaisons-Lecarré, Agnès, Ferreira, Lucien, Greco, Luna, Kass, George E N, Riolo, Francesca, Leblanc, Jean-Charles, More, Simon John, Bampidis, Vasileios, Benford, Diane, Bragard, Claude, Halldorsson, Thorhallur Ingi, Hernández-Jerez, Antonio F, Bennekou, Susanne Hougaard, Koutsoumanis, Kostas, Lambré, Claude, Machera, Kyriaki, Mullins, Ewen, Nielsen, Søren Saxmose, Schlatter, Josef R, Schrenk, Dieter, Turck, Dominique, Younes, Maged, Boon, Polly, Ferns, Gordon Aa, Lindtner, Oliver, Smolders, Erik, Wilks, Martin, Bastaki, Maria, de Sesmaisons-Lecarré, Agnès, Ferreira, Lucien, Greco, Luna, Kass, George E N, Riolo, Francesca, and Leblanc, Jean-Charles

Abstract

Copper is an essential micronutrient and also a regulated product used in organic and in conventional farming pest management. Both deficiency and excessive exposure to copper can have adverse health effects. In this Scientific Opinion, the EFSA 2021 harmonised approach for establishing health-based guidance values (HBGVs) for substances that are regulated products and also nutrients was used to resolve the divergent existing HBGVs for copper. The tightly regulated homeostasis prevents toxicity manifestation in the short term, but the development of chronic copper toxicity is dependent on copper homeostasis and its tissue retention. Evidence from Wilson disease suggests that hepatic retention is indicative of potential future and possibly sudden onset of copper toxicity under conditions of continuous intake. Hence, emphasis was placed on copper retention as an early marker of potential adverse effects. The relationships between (a) chronic copper exposure and its retention in the body, particularly the liver, and (b) hepatic copper concentrations and evidence of toxicity were examined. The Scientific Committee (SC) concludes that no retention of copper is expected to occur with intake of 5 mg/day and established an Acceptable Daily Intake (ADI) of 0.07 mg/kg bw. A refined dietary exposure assessment was performed, assessing contribution from dietary and non-dietary sources. Background copper levels are a significant source of copper. The contribution of copper from its use as plant protection product (PPP), food and feed additives or fertilisers is negligible. The use of copper in fertilisers or PPPs contributes to copper accumulation in soil. Infant formula and follow-on formula are important contributors to dietary exposure of copper in infants and toddlers. Contribution from non-oral sources is negligible. Dietary exposure to total copper does not exceed the HBGV in adolescents, adults, elderly and the very elderly. Neither hepatic copper retention nor adverse

Published
2023

7. Draft for internal testing Scientific Committee guidance on appraising and integrating evidence from epidemiological studies for use in EFSA's scientific assessments

Author

EFSA Scientific Committee, More, Simon, Bambidis, Vasileos, Benford, Diane, Bragard, Claude, Hernandez-Jerez, Antonio, Bennekou, Susanne Hougaard, Koutsoumanis, Kostas, Machera, Kyriaki, Naegeli, Hanspeter, Nielsen, Soren Saxmose, Schlatter, Josef R, Schrenk, Dieter, Silano, Vittorio, Turck, Dominique, Younes, Maged, Fletcher, Tony, Greiner, Matthias, Ntzani, Evangelia, Pearce, Neil, Vinceti, Marco, Ciccolallo, Laura, Georgiadis, Marios, Gervelmeyer, Andrea, Halldorsson, Thorhallur I, University of Zurich, and UCL - SST/ELI/ELIM - Applied Microbiology

Subjects
Hazard characterisation, exposure assessment, 040301 veterinary sciences, Veterinary (miscellaneous), Population, 2405 Parasitology, Plant Science, TP1-1185, 010501 environmental sciences, EFSA Scientific Committee, 01 natural sciences, Microbiology, Evidence appraisal, 0403 veterinary science, External validity, Exposure assesment, 1110 Plant Science, Relevance (law), TX341-641, education, hazard characterisation, Reliability (statistics), 1106 Food Science, 0105 earth and related environmental sciences, Risk assessment, education.field_of_study, Epidemiological studies, evidence appraisal, Nutrition. Foods and food supply, Clinical study design, Chemical technology, 2404 Microbiology, risk assessment, Public consultation, 04 agricultural and veterinary sciences, 10079 Institute of Veterinary Pharmacology and Toxicology, 3401 Veterinary (miscellaneous), Scientific Opinion, Risk analysis (engineering), 570 Life sciences, biology, Animal Science and Zoology, Parasitology, Observational study, 1103 Animal Science and Zoology, Food Science
Abstract

EFSA requested its Scientific Committee to prepare a guidance document on appraising and integrating evidence from epidemiological studies for use in EFSA's scientific assessments. The guidance document provides an introduction to epidemiological studies and illustrates the typical biases of the different epidemiological study designs. It describes key epidemiological concepts relevant for evidence appraisal. Regarding study reliability, measures of association, exposure assessment, statistical inferences, systematic error and effect modification are explained. Regarding study relevance, the guidance describes the concept of external validity. The principles of appraising epidemiological studies are illustrated, and an overview of Risk of Bias (RoB) tools is given. A decision tree is developed to assist in the selection of the appropriate Risk of Bias tool, depending on study question, population and design. The customisation of the study appraisal process is explained, detailing the use of RoB tools and assessing the risk of bias in the body of evidence. Several examples of appraising experimental and observational studies using a Risk of Bias tool are annexed to the document to illustrate the application of the approach. This document constitutes a draft that will be applied in EFSA's assessments during a 1‐year pilot phase and be revised and complemented as necessary. Before finalisation of the document, a public consultation will be launched.

Published
2020
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8. Draft for internal testing Scientific Committee guidance on appraising and integrating evidence from epidemiological studies for use in EFSA's scientific assessments

Author

More, Simon, Bambidis, Vasileos, Benford, Diane, Bragard, Claude, Hernandez-Jerez, Antonio, Bennekou, Susanne Hougaard, Koutsoumanis, Kostas, Machera, Kyriaki, Naegeli, Hanspeter, Nielsen, Soren Saxmose, Schlatter, Josef R., Schrenk, Dieter, Silano, Vittorio, Turck, Dominique, Younes, Maged, Fletcher, Tony, Greiner, Matthias, Ntzani, Evangelia, Pearce, Neil, Vinceti, Marco, Ciccolallo, Laura, Georgiadis, Marios, Gervelmeyer, Andrea, Halldorsson, Thorhallur I., More, Simon, Bambidis, Vasileos, Benford, Diane, Bragard, Claude, Hernandez-Jerez, Antonio, Bennekou, Susanne Hougaard, Koutsoumanis, Kostas, Machera, Kyriaki, Naegeli, Hanspeter, Nielsen, Soren Saxmose, Schlatter, Josef R., Schrenk, Dieter, Silano, Vittorio, Turck, Dominique, Younes, Maged, Fletcher, Tony, Greiner, Matthias, Ntzani, Evangelia, Pearce, Neil, Vinceti, Marco, Ciccolallo, Laura, Georgiadis, Marios, Gervelmeyer, Andrea, and Halldorsson, Thorhallur I.

Abstract

EFSA requested its Scientific Committee to prepare a guidance document on appraising and integrating evidence from epidemiological studies for use in EFSA's scientific assessments. The guidance document provides an introduction to epidemiological studies and illustrates the typical biases of the different epidemiological study designs. It describes key epidemiological concepts relevant for evidence appraisal. Regarding study reliability, measures of association, exposure assessment, statistical inferences, systematic error and effect modification are explained. Regarding study relevance, the guidance describes the concept of external validity. The principles of appraising epidemiological studies are illustrated, and an overview of Risk of Bias (RoB) tools is given. A decision tree is developed to assist in the selection of the appropriate Risk of Bias tool, depending on study question, population and design. The customisation of the study appraisal process is explained, detailing the use of RoB tools and assessing the risk of bias in the body of evidence. Several examples of appraising experimental and observational studies using a Risk of Bias tool are annexed to the document to illustrate the application of the approach. This document constitutes a draft that will be applied in EFSA's assessments during a 1-year pilot phase and be revised and complemented as necessary. Before finalisation of the document, a public consultation will be launched.

Published
2020

9. Draft for internal testing Scientific Committee guidance on appraising and integrating evidence from epidemiological studies for use in EFSA's scientific assessments

Author

Committee, EFSA Scientific, More, Simon J, Bambidis, Vasileos, Benford, Diane, Bragard, Claude, Hernandez-Jerez, Antonio, Bennekou, Susanne Hougaard, Koutsoumanis, Kostas, Machera, Kyriaki, Naegeli, Hanspeter, Nielsen, Soren Saxmose, Schlatter, Josef R, Schrenk, Dieter, Silano, Vittorio, Turck, Dominique, Younes, Maged, Fletcher, Tony, Greiner, Matthias, Ntzani, Evangelia, Pearce, Neil, Vinceti, Marco, Ciccolallo, Laura, Georgiadis, Marios, Gervelmeyer, Andrea, Halldorsson, Thorhallur I, Committee, EFSA Scientific, More, Simon J, Bambidis, Vasileos, Benford, Diane, Bragard, Claude, Hernandez-Jerez, Antonio, Bennekou, Susanne Hougaard, Koutsoumanis, Kostas, Machera, Kyriaki, Naegeli, Hanspeter, Nielsen, Soren Saxmose, Schlatter, Josef R, Schrenk, Dieter, Silano, Vittorio, Turck, Dominique, Younes, Maged, Fletcher, Tony, Greiner, Matthias, Ntzani, Evangelia, Pearce, Neil, Vinceti, Marco, Ciccolallo, Laura, Georgiadis, Marios, Gervelmeyer, Andrea, and Halldorsson, Thorhallur I

Abstract

EFSA requested its Scientific Committee to prepare a guidance document on appraising and integrating evidence from epidemiological studies for use in EFSA's scientific assessments. The guidance document provides an introduction to epidemiological studies and illustrates the typical biases of the different epidemiological study designs. It describes key epidemiological concepts relevant for evidence appraisal. Regarding study reliability, measures of association, exposure assessment, statistical inferences, systematic error and effect modification are explained. Regarding study relevance, the guidance describes the concept of external validity. The principles of appraising epidemiological studies are illustrated, and an overview of Risk of Bias (RoB) tools is given. A decision tree is developed to assist in the selection of the appropriate Risk of Bias tool, depending on study question, population and design. The customisation of the study appraisal process is explained, detailing the use of RoB tools and assessing the risk of bias in the body of evidence. Several examples of appraising experimental and observational studies using a Risk of Bias tool are annexed to the document to illustrate the application of the approach. This document constitutes a draft that will be applied in EFSA's assessments during a 1-year pilot phase and be revised and complemented as necessary. Before finalisation of the document, a public consultation will be launched.

Published
2020

10. Guidance on harmonised methodologies for human health, animal health and ecological risk assessment of combined exposure to multiple chemicals

Author

More, Simon John, Bampidis, Vasileios, Benford, Diane, Bennekou, Susanne Hougaard, Bragard, Claude, Halldorsson, Thorhallur Ingi, Hernández‐Jerez, Antonio F, Koutsoumanis, Konstantinos, Naegeli, Hanspeter, Schlatter, Josef R, Silano, Vittorio, Nielsen, Søren Saxmose, Schrenk, Dieter, Turck, Dominique, Younes, Maged, Benfenati, Emilio, Castle, Laurence, Cedergreen, Nina, Hardy, Anthony, Laskowski, Ryszard, Leblanc, Jean Charles, Kortenkamp, Andreas, Ragas, Ad, Posthuma, Leo, Svendsen, Claus, Solecki, Roland, Testai, Emanuela, Dujardin, Bruno, Kass, George E N, et al, and University of Zurich

Subjects
3401 Veterinary (miscellaneous), 2404 Microbiology, 1110 Plant Science, 2405 Parasitology, 570 Life sciences, biology, 10079 Institute of Veterinary Pharmacology and Toxicology, 1103 Animal Science and Zoology, 1106 Food Science
Published
2019

11. Guidance on harmonised methodologies for human health, animal health and ecological risk assessment of combined exposure to multiple chemicals

Author

Committee, EFSA Scientific, More, Simon John, Hardy, Anthony, Bampidis, Vasileios, Benford, Diane, Hougaard Bennekou, Susanne, Bragard, Claude, Boesten, Jos, Halldorsson, Thorhallur Ingi, Hernández-Jerez, Antonio F, Jeger, Michael John, Knutsen, Helle Katrine, Koutsoumanis, Konstantinos Panagiotis, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Nielsen, Søren Saxmose, Schrenk, Dieter, Solecki, Roland, Turck, Dominique, Younes, Maged, Benfenati, Emilio, Castle, Laurence, Cedergreen, Nina, Laskowski, Ryszard, Leblanc, Jean Charles, Kortenkamp, Andreas, Ragas, Ad, Posthuma, Leo, Svendsen, Claus, Testai, Emanuela, Dujardin, Bruno, Kass, George EN, Manini, Paola, Zare Jeddi, Maryam, Dorne, Jean-Lou CM, Hogstrand, Christer, European Food Safety Authority, RS-Research Line Learning (part of LIRS program), and Academic Field Science

Subjects
harmonised methodologies, 040301 veterinary sciences, Veterinary (miscellaneous), MIXTURE TOXICITY, MODELS, UNCERTAINTY, TP1-1185, Plant Science, 010501 environmental sciences, Hazard analysis, combined exposure to multiple chemicals, 01 natural sciences, Microbiology, 0403 veterinary science, Human health, SDG 3 - Good Health and Well-being, FOOD, response addition, SDG 13 - Climate Action, TX341-641, Ecological risk, 0105 earth and related environmental sciences, Exposure assessment, Animal health, Nutrition. Foods and food supply, Chemical technology, risk assessment, 04 agricultural and veterinary sciences, interactions, FRAMEWORK, JOINT ALGAL TOXICITY, dose addition, COMMON MECHANISM, SYNERGISTIC INTERACTIONS, mixtures, RESPONSE-SURFACE, Work (electrical), Risk analysis (engineering), SAFETY, Dose addition, Guidance, Animal Science and Zoology, Parasitology, Risk assessment, Environmental Sciences, Food Science
Abstract

This Guidance document describes harmonised risk assessment methodologies for combined exposure to multiple chemicals for all relevant areas within EFSA's remit, i.e. human health, animal health and ecological areas. First, a short review of the key terms, scientific basis for combined exposure risk assessment and approaches to assessing (eco)toxicology is given, including existing frameworks for these risk assessments. This background was evaluated, resulting in a harmonised framework for risk assessment of combined exposure to multiple chemicals. The framework is based on the risk assessment steps (problem formulation, exposure assessment, hazard identification and characterisation, and risk characterisation including uncertainty analysis), with tiered and stepwise approaches for both whole mixture approaches and component‐based approaches. Specific considerations are given to component‐based approaches including the grouping of chemicals into common assessment groups, the use of dose addition as a default assumption, approaches to integrate evidence of interactions and the refinement of assessment groups. Case studies are annexed in this guidance document to explore the feasibility and spectrum of applications of the proposed methods and approaches for human and animal health and ecological risk assessment. The Scientific Committee considers that this Guidance is fit for purpose for risk assessments of combined exposure to multiple chemicals and should be applied in all relevant areas of EFSA's work. Future work and research are recommended., This publication is linked to the following EFSA Supporting Publications article: http://onlinelibrary.wiley.com/doi/10.2903/sp.efsa.2019.EN-1589/full, http://onlinelibrary.wiley.com/doi/10.2903/sp.efsa.2019.EN-1602/full

Published
2019
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12. Guidance on harmonised methodologies for human health, animal health and ecological risk assessment of combined exposure to multiple chemicals

Author

EFSA Scientific Committee, ., More, Simon John, Bampidis, Vasileios, Benford, Diane, Bennekou, Susanne Hougaard, Bragard, Claude, Halldorsson, Thorhallur Ingi, Hernández-Jerez, Antonio F, Koutsoumanis, Konstantinos, Naegeli, Hanspeter, Schlatter, Josef R, Silano, Vittorio, Nielsen, Søren Saxmose, Schrenk, Dieter, Turck, Dominique, Younes, Maged, Benfenati, Emilio, Castle, Laurence, Cedergreen, Nina, Hardy, Anthony, Laskowski, Ryszard, Leblanc, Jean Charles, Kortenkamp, Andreas, Ragas, A.M.J., Posthuma, Leo, Svendsen, Claus, Solecki, Roland, Testai, Emanuela, Dujardin, Bruno, Kass, George EN, Manini, Paola, Jeddi, Maryam Zare, Dorne, Jean-Lou CM, Hogstrand, Christer, EFSA Scientific Committee, ., More, Simon John, Bampidis, Vasileios, Benford, Diane, Bennekou, Susanne Hougaard, Bragard, Claude, Halldorsson, Thorhallur Ingi, Hernández-Jerez, Antonio F, Koutsoumanis, Konstantinos, Naegeli, Hanspeter, Schlatter, Josef R, Silano, Vittorio, Nielsen, Søren Saxmose, Schrenk, Dieter, Turck, Dominique, Younes, Maged, Benfenati, Emilio, Castle, Laurence, Cedergreen, Nina, Hardy, Anthony, Laskowski, Ryszard, Leblanc, Jean Charles, Kortenkamp, Andreas, Ragas, A.M.J., Posthuma, Leo, Svendsen, Claus, Solecki, Roland, Testai, Emanuela, Dujardin, Bruno, Kass, George EN, Manini, Paola, Jeddi, Maryam Zare, Dorne, Jean-Lou CM, and Hogstrand, Christer

Abstract

Contains fulltext : 204310.pdf (publisher's version ) (Open Access)

Published
2019

13. Guidance on the use of the Threshold of Toxicological Concern approach in food safety assessment

Author

Committee, EFSA Scientific, More, Simon J, Bampidis, Vasileios, Benford, Diane, Bragard, Claude, Halldorsson, Thorhallur I, Hernández-Jerez, Antonio F, Hougaard Bennekou, Susanne, Koutsoumanis, Kostas P, Machera, Kyriaki, Naegeli, Hanspeter, Nielsen, Søren S, Schlatter, Josef R, Schrenk, Dieter, Silano, Vittorio, Turck, Dominique, Younes, Maged, Gundert-Remy, Ursula, Kass, George E N, Kleiner, Juliane, Rossi, Anna Maria, Serafimova, Rositsa, Reilly, Linda, Wallace, Heather M, Committee, EFSA Scientific, More, Simon J, Bampidis, Vasileios, Benford, Diane, Bragard, Claude, Halldorsson, Thorhallur I, Hernández-Jerez, Antonio F, Hougaard Bennekou, Susanne, Koutsoumanis, Kostas P, Machera, Kyriaki, Naegeli, Hanspeter, Nielsen, Søren S, Schlatter, Josef R, Schrenk, Dieter, Silano, Vittorio, Turck, Dominique, Younes, Maged, Gundert-Remy, Ursula, Kass, George E N, Kleiner, Juliane, Rossi, Anna Maria, Serafimova, Rositsa, Reilly, Linda, and Wallace, Heather M

Abstract

The Scientific Committee confirms that the Threshold of Toxicological Concern (TTC) is a pragmatic screening and prioritisation tool for use in food safety assessment. This Guidance provides clear step-by-step instructions for use of the TTC approach. The inclusion and exclusion criteria are defined and the use of the TTC decision tree is explained. The approach can be used when the chemical structure of the substance is known, there are limited chemical-specific toxicity data and the exposure can be estimated. The TTC approach should not be used for substances for which EU food/feed legislation requires the submission of toxicity data or when sufficient data are available for a risk assessment or if the substance under consideration falls into one of the exclusion categories. For substances that have the potential to be DNA-reactive mutagens and/or carcinogens based on the weight of evidence, the relevant TTC value is 0.0025 ?g/kg body weight (bw) per day. For organophosphates or carbamates, the relevant TTC value is 0.3 ?g/kg bw per day. All other substances are grouped according to the Cramer classification. The TTC values for Cramer Classes I, II and III are 30 ?g/kg bw per day, 9 ?g/kg bw per day and 1.5 ?g/kg bw per day, respectively. For substances with exposures below the TTC values, the probability that they would cause adverse health effects is low. If the estimated exposure to a substance is higher than the relevant TTC value, a non-TTC approach is required to reach a conclusion on potential adverse health effects.

Published
2019

14. The principles and methods behind EFSA's Guidance on Uncertainty Analysis in Scientific Assessment

Author

Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Younes, Maged, Craig, Peter, Hart, Andrew, Von Goetz, Natalie, Koutsoumanis, Kostas, Mortensen, Alicja, Ossendorp, Bernadette, Germini, Andrea, Martino, Laura, Merten, Caroline, Mosbach-Schulz, Olaf, Smith, Anthony, Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Younes, Maged, Craig, Peter, Hart, Andrew, Von Goetz, Natalie, Koutsoumanis, Kostas, Mortensen, Alicja, Ossendorp, Bernadette, Germini, Andrea, Martino, Laura, Merten, Caroline, Mosbach-Schulz, Olaf, Smith, Anthony, and Hardy, Anthony

Abstract

To meet the general requirement for transparency in EFSA's work, all its scientific assessments must consider uncertainty. Assessments must say clearly and unambiguously what sources of uncertainty have been identified and what is their impact on the assessment conclusion. This applies to all EFSA's areas, all types of scientific assessment and all types of uncertainty affecting assessment. This current Opinion describes the principles and methods supporting a concise Guidance Document on Uncertainty in EFSA's Scientific Assessment, published separately. These documents do not prescribe specific methods for uncertainty analysis but rather provide a flexible framework within which different methods may be selected, according to the needs of each assessment. Assessors should systematically identify sources of uncertainty, checking each part of their assessment to minimise the risk of overlooking important uncertainties. Uncertainty may be expressed qualitatively or quantitatively. It is neither necessary nor possible to quantify separately every source of uncertainty affecting an assessment. However, assessors should express in quantitative terms the combined effect of as many as possible of identified sources of uncertainty. The guidance describes practical approaches. Uncertainty analysis should be conducted in a flexible, iterative manner, starting at a level appropriate to the assessment and refining the analysis as far as is needed or possible within the time available. The methods and results of the uncertainty analysis should be reported fully and transparently. Every EFSA Panel and Unit applied the draft Guidance to at least one assessment in their work area during a trial period of one year. Experience gained in this period resulted in improved guidance. The Scientific Committee considers that uncertainty analysis will be unconditional for EFSA Panels and staff and must be embedded into scientific assessment in all areas of EFSA's work.

Published
2018

15. Guidance on Uncertainty Analysis in Scientific Assessments

Author

Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Younes, Maged, Craig, Peter, Hart, Andrew, Von Goetz, Natalie, Koutsoumanis, Kostas, Mortensen, Alicja, Ossendorp, Bernadette, Martino, Laura, Merten, Caroline, Mosbach-Schulz, Olaf, Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Younes, Maged, Craig, Peter, Hart, Andrew, Von Goetz, Natalie, Koutsoumanis, Kostas, Mortensen, Alicja, Ossendorp, Bernadette, Martino, Laura, Merten, Caroline, Mosbach-Schulz, Olaf, and Hardy, Anthony

Abstract

Uncertainty analysis is the process of identifying limitations in scientific knowledge and evaluating their implications for scientific conclusions. It is therefore relevant in all EFSA's scientific assessments and also necessary, to ensure that the assessment conclusions provide reliable information for decision-making. The form and extent of uncertainty analysis, and how the conclusions should be reported, vary widely depending on the nature and context of each assessment and the degree of uncertainty that is present. This document provides concise guidance on how to identify which options for uncertainty analysis are appropriate in each assessment, and how to apply them. It is accompanied by a separate, supporting opinion that explains the key concepts and principles behind this Guidance, and describes the methods in more detail.

Published
2018

16. Guidance on risk assessment of the application of nanoscience and nanotechnologies in the food and feed chain:Part 1, human and animal health

Author

Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R., Silano, Vittorio, Solecki, Roland, Turck, Dominique, Younes, Maged, Chaudhry, Qasim, Cubadda, Francesco, Gott, David, Oomen, Agnes, Weigel, Stefan, Karamitrou, Melpo, Schoonjans, Reinhilde, Mortensen, Alicja, Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R., Silano, Vittorio, Solecki, Roland, Turck, Dominique, Younes, Maged, Chaudhry, Qasim, Cubadda, Francesco, Gott, David, Oomen, Agnes, Weigel, Stefan, Karamitrou, Melpo, Schoonjans, Reinhilde, and Mortensen, Alicja

Abstract

The European Food Safety Authority has produced this Guidance on human and animal health aspects (Part 1) of the risk assessment of nanoscience and nanotechnology applications in the food and feed chain. It covers the application areas within EFSA's remit, e.g. novel foods, food contact materials, food/feed additives and pesticides. The Guidance takes account of the new developments that have taken place since publication of the previous Guidance in 2011. Potential future developments are suggested in the scientific literature for nanoencapsulated delivery systems and nanocomposites in applications such as novel foods, food/feed additives, biocides, pesticides and food contact materials. Therefore, the Guidance has taken account of relevant new scientific studies that provide more insights to physicochemical properties, exposure assessment and hazard characterisation of nanomaterials. It specifically elaborates on physicochemical characterisation of nanomaterials in terms of how to establish whether a material is a nanomaterial, the key parameters that should be measured, the methods and techniques that can be used for characterisation of nanomaterials and their determination in complex matrices. It also details the aspects relating to exposure assessment and hazard identification and characterisation. In particular, nanospecific considerations relating to in vivo/in vitro toxicological studies are discussed and a tiered framework for toxicological testing is outlined. It describes in vitro degradation, toxicokinetics, genotoxicity as well as general issues relating to testing of nanomaterials. Depending on the initial tier results, studies may be needed to investigate reproductive and developmental toxicity, immunotoxicity, allergenicity, neurotoxicity, effects on gut microbiome and endocrine activity. The possible use of read-across to fill data gaps as well as the potential use of integrated testing strategies and the knowledge of modes/mechanisms of act

Published
2018

17. Guidance on risk assessment of the application of nanoscience and nanotechnologies in the food and feed chain: Part 1, human and animal health

Author

Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter; https://orcid.org/0000-0001-5762-1359, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Younes, Maged, Chaudhry, Qasim, Cubadda, Francesco, Gott, David, Oomen, Agnes, Weigel, Stefan, Karamitrou, Melpo, Schoonjans, Reinhilde, Mortensen, Alicja, Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter; https://orcid.org/0000-0001-5762-1359, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Younes, Maged, Chaudhry, Qasim, Cubadda, Francesco, Gott, David, Oomen, Agnes, Weigel, Stefan, Karamitrou, Melpo, Schoonjans, Reinhilde, and Mortensen, Alicja

Published
2018

18. Guidance on the assessment of the biological relevance of data in scientific assessments

Author

Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Younes, Maged, Bresson, Jean‐Louis, Griffin, John, Hougaard Benekou, Susanne, van Loveren, Henk, Luttik, Robert, Messean, Antoine, Penninks, André, Ru, Giuseppe, Stegeman, Jan Arend, van der Werf, Wopke, Westendorf, Johannes, Woutersen, Rudolf Antonius, Barizzone, Fulvio, Bottex, Bernard, et al, and University of Zurich

Subjects
570 Life sciences, biology, 10079 Institute of Veterinary Pharmacology and Toxicology
Published
2017

19. Update: use of the benchmark dose approach in risk assessment

Author

Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Katrine Helle, More, Simon, Mortensen, Alicja, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Aerts, Marc, Bodin, Laurent, Davis, Allen, Edler, Lutz, Gundert‐Remy, Ursula, Sand, Salomon, Slob, Wout, Bottex, Bernard, Abrahantes, Jose Cortiñas, Marques, Daniele Court, Kass, George, Schlatter, Josef R, and University of Zurich

Subjects
570 Life sciences, biology, 10079 Institute of Veterinary Pharmacology and Toxicology
Published
2017

20. Guidance on the use of the weight of evidence approach in scientific assessments

Author

Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Benfenati, Emilio, Chaudhry, Qasim Mohammad, Craig, Peter, Frampton, Geoff, Greiner, Matthias, Hart, Andrew, Hogstrand, Christer, Lambre, Claude, Luttik, Robert, Makowski, David, Siani, Alfonso, Wahlstroem, Helene, Aguilera, Jaime, Dorne, Jean‐Lou, Fernandez Dumont, Antonio, et al, and University of Zurich

Subjects
570 Life sciences, biology, 10079 Institute of Veterinary Pharmacology and Toxicology
Published
2017

21. Guidance on the risk assessment of substances present in food intended for infants below 16 weeks of age

Author

Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Bresson, Jean-Louis, Dusemund, Birgit, Gundert-Remy, Ursula, Kersting, Mathilde, Lambré, Claude, Penninks, André, Tritscher, Angelika, Waalkens-Berendsen, Ine, Woutersen, Ruud, Arcella, Davide, Court Marques, Daniele, Dorne, Jean-Lou, Kass, George EN, Mortensen, Alicja, Hardy, Anthony, Benford, Diane, Halldorsson, Thorhallur, Jeger, Michael John, Knutsen, Helle Katrine, More, Simon, Naegeli, Hanspeter, Noteborn, Hubert, Ockleford, Colin, Ricci, Antonia, Rychen, Guido, Schlatter, Josef R, Silano, Vittorio, Solecki, Roland, Turck, Dominique, Bresson, Jean-Louis, Dusemund, Birgit, Gundert-Remy, Ursula, Kersting, Mathilde, Lambré, Claude, Penninks, André, Tritscher, Angelika, Waalkens-Berendsen, Ine, Woutersen, Ruud, Arcella, Davide, Court Marques, Daniele, Dorne, Jean-Lou, Kass, George EN, and Mortensen, Alicja

Abstract

Following a request from the European Commission to EFSA, the EFSA Scientific Committee (SC) prepared a guidance for the risk assessment of substances present in food intended for infants below 16 weeks of age. In its approach to develop this guidance, the EFSA SC took into account, among others, (i) an exposure assessment based on infant formula as the only source of nutrition; (ii) knowledge of organ development in human infants, including the development of the gut, metabolic and excretory capacities, the brain and brain barriers, the immune system, the endocrine and reproductive systems; (iii) the overall toxicological profile of the substance identified through the standard toxicological tests, including critical effects; (iv) the relevance for the human infant of the neonatal experimental animal models used. The EFSA SC notes that during the period from birth up to 16 weeks, infants are expected to be exclusively fed on breast milk and/or infant formula. The EFSA SC views this period as the time where health-based guidance values for the general population do not apply without further considerations. High infant formula consumption per body weight is derived from 95th percentile consumption. The first weeks of life is the time of the highest relative consumption on a body weight basis. Therefore, when performing an exposure assessment, the EFSA SC proposes to use the high consumption value of 260 mL/kg bw per day. A decision tree approach is proposed that enables a risk assessment of substances present in food intended for infants below 16 weeks of age. The additional information needed when testing substances present in food for infants below 16 weeks of age and the approach to be taken for the risk assessment are on a case-by-case basis, depending on whether the substance is added intentionally to food and is systemically available.

Published
2017

22. Coverage of endangered species in environmental risk assessments at EFSA

Author

More, Simon, Mortensen, Alicja, Ricci, Antonia, Silano, Vittorio, Knutsen, Katrine Helle, Rychen, Guido, Naegeli, Hanspeter, Turck, Dominique, Jeger, Michael John, Ockleford, Colin, Benford, Diane, Halldorsson, Thorhallur, Hardy, Anthony, Noteborn, Hubert, Schlatter, Josef R., Solecki, Roland, Michael, Bonsall, Theo, Brock, Gilioli, Gianni, Christer, Hogstrand, Jonathan, Jeschke, Mira, Kattwinkel, Robert, Luttik, Ragas, Ad, Paulo, Sousa, and Claus, Svendsen

Subjects
0106 biological sciences, invasive alien species, feed additives, genetically modified organisms, Nutrition. Foods and food supply, Veterinary (miscellaneous), Chemical technology, environmental risk assessment, Plant Science, endangered species, TP1-1185, 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, Microbiology, plant protection products, endangered species, environmental risk assessment, food production, plant protectionproducts, genetically modified organisms, feed additives, invasive alien species, plant protectionproducts, Animal Science and Zoology, Parasitology, TX341-641, genetically modified organisms, food production, 0105 earth and related environmental sciences, Food Science
Abstract

The EFSA performs environmental risk assessment (ERA) for single potential stressors such as plant protection products, genetically modified organisms and feed additives, and for invasive alien species that are harmful to plant health. This ERA focusses primarily on the use or spread of such potential stressors in an agricultural context, but also considers the impact on the wider environment. It is important to realise that the above potential stressors in most cases contribute a minor proportion of the total integrated pressure that ecosystems experience. The World Wildlife Fund listed the relative attribution of threats contributing to the declines in animal populations as follows: 37% from exploitation (fishing, hunting, etc.), 31% habitat degradation and change, 13% from habitat loss, 7% from climate change, and only 5% from invasive species, 4% from pollution and 2% from disease. In this scientific opinion, the Scientific Committee gathered scientific knowledge on the extent of coverage of endangered species in current ERA schemes that fall under the remit of EFSA. The legal basis and the relevant ecological and biological features used to classify a species as endangered are investigated. The characteristics that determine vulnerability of endangered species are reviewed. Whether endangered species are more at risk from exposure to potential stressors than other nontarget species is discussed, but specific protection goals for endangered species are not given. Due to a lack of effect and exposure data for the vast majority of endangered species, the reliability of using data from other species is a key issue for their ERA. This issue and other uncertainties are discussed when reviewing the coverage of endangered species in current ERA schemes. Potential tools, such as population and landscape modelling and trait‐based approaches, for extending the coverage of endangered species in current ERA schemes, are explored and reported.

Published
2016

26. Azole fungicides affect mammalian steroidogenesis by inhibiting sterol 14 α-demethylase and aromatase

Author

Zarn, Jürg A., Brüschweiler, Beat J., and Schlatter, Josef R.

Subjects
Lanosterol, Aromatase, Endocrine disruption, Meiosis-activating sterols, CYP51, Follicle fluid meiosis-activating sterol (FF-MAS), Sterol 14 alpha-demethylase, CYP19, Testis meiosis-activating sterol (T-MAS)
Abstract

Azole compounds play a key role as antifungals in agriculture and in human mycoses and as non-steroidal antiestrogens in the treatment of estrogen-responsive breast tumors in postmenopausal women. This broad use of azoles is based on their inhibition of certain pathways of steroidogenesis by high-affinity binding to the enzymes sterol 14-alpha-demethylase and aromatase. Sterol 14-alpha-demethylase is crucial for the production of meiosis-activating sterols, which recently were shown to modulate germ cell development in both sexes of mammals. Aromatase is responsible for the physiologic balance of androgens and estrogens. At high doses, azole fungicides and other azole compounds affect reproductive organs, fertility, and development in several species. These effects may be explained by inhibition of sterol 14-alpha-demethylase and/or aromatase. In fact, several azole compounds were shown to inhibit these enzymes in vitro, and there is also strong evidence for inhibiting activity in vivo. Furthermore, the specificity of the enzyme inhibition of several of these compounds is poor, both with respect to fungal versus nonfungal sterol 14-alpha-demethylases and versus other P450 enzymes including aromatase. To our knowledge, this is the first review on sterol 14-alpha-demethylase and aromatase as common targets of azole compounds and the consequence for steroidogenesis. We conclude that many azole compounds developed as inhibitors of fungal sterol 14-alpha-demethylase are inhibitors also of mammalian sterol 14-alpha-demethylase and mammalian aromatase with unknown potencies. For human health risk assessment, data on comparative potencies of azole fungicides to fungal and human enzymes are needed., Environmental Health Perspectives, 111 (3), ISSN:1552-9924, ISSN:0091-6765

Published
2003

28. Guidance on the use of the Threshold of Toxicological Concern approach in food safety assessment.

Author

More, Simon J, Bampidis, Vasileios, Benford, Diane, Bragard, Claude, Halldorsson, Thorhallur I, Hernández‐Jerez, Antonio F, Hougaard Bennekou, Susanne, Koutsoumanis, Kostas P, Machera, Kyriaki, Naegeli, Hanspeter, Nielsen, Søren S, Schlatter, Josef R, Schrenk, Dieter, Silano, Vittorio, Turck, Dominique, Younes, Maged, Gundert‐Remy, Ursula, Kass, George E N, Kleiner, Juliane, and Rossi, Anna Maria

Subjects
FOOD safety, DECISION trees, BODY weight, CHEMICAL structure, RISK assessment
Abstract

The Scientific Committee confirms that the Threshold of Toxicological Concern (TTC) is a pragmatic screening and prioritisation tool for use in food safety assessment. This Guidance provides clear step‐by‐step instructions for use of the TTC approach. The inclusion and exclusion criteria are defined and the use of the TTC decision tree is explained. The approach can be used when the chemical structure of the substance is known, there are limited chemical‐specific toxicity data and the exposure can be estimated. The TTC approach should not be used for substances for which EU food/feed legislation requires the submission of toxicity data or when sufficient data are available for a risk assessment or if the substance under consideration falls into one of the exclusion categories. For substances that have the potential to be DNA‐reactive mutagens and/or carcinogens based on the weight of evidence, the relevant TTC value is 0.0025 μg/kg body weight (bw) per day. For organophosphates or carbamates, the relevant TTC value is 0.3 μg/kg bw per day. All other substances are grouped according to the Cramer classification. The TTC values for Cramer Classes I, II and III are 30 μg/kg bw per day, 9 μg/kg bw per day and 1.5 μg/kg bw per day, respectively. For substances with exposures below the TTC values, the probability that they would cause adverse health effects is low. If the estimated exposure to a substance is higher than the relevant TTC value, a non‐TTC approach is required to reach a conclusion on potential adverse health effects. This publication is linked to the following EFSA Supporting Publications article: http://onlinelibrary.wiley.com/doi/10.2903/sp.efsa.2019.EN-1661/full [ABSTRACT FROM AUTHOR]

Published
2019
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29. Outcome of the public consultation on the draft guidance on the use of the Threshold of Toxicological Concern approach in food safety assessment.

Author

Benford, Diane, Gundert‐Remy, Ursula, E N Kass, George, Reilly, Linda, Schlatter, Josef R, Wallace, Heather M, and Younes, Maged

Subjects
FOOD safety, STAKEHOLDERS
Abstract

The European Food Safety Authority (EFSA) carried out a public consultation to receive input from the scientific community and all interested parties on the Guidance on the use of the Threshold of Toxicological Concern approach in food safety assessment. The draft guidance was prepared by a dedicated working group of the Scientific Committee and endorsed by the Scientific Committee for public consultation at its plenary meeting of 17th September 2018. The public consultation for this document was open from 12th November 2018 to 10th January 2019. EFSA received 101 comments from 23 interested parties in addition to three letters. EFSA's Scientific Committee wishes to thank all stakeholders for their contributions. This report presents statistics on the comments received and provides a summarised description of how the comments were addressed in the finalisation of the document. The valuable and detailed comments from the stakeholders were taken into account by the Scientific Committee to prepare an updated version of the guidance. The opinion was discussed and adopted at the Scientific Committee plenary meeting on 24 April 2019 and is published in the EFSA Journal This publication is linked to the following EFSA Journal article: http://onlinelibrary.wiley.com/doi/10.2903/j.efsa.2019.5708/full [ABSTRACT FROM AUTHOR]

Published
2019
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30. Re-evaluation of the existing health-based guidance values for copper and exposure assessment from all sources.

Author

More SJ, Bampidis V, Benford D, Bragard C, Halldorsson TI, Hernández-Jerez AF, Bennekou SH, Koutsoumanis K, Lambré C, Machera K, Mullins E, Nielsen SS, Schlatter JR, Schrenk D, Turck D, Younes M, Boon P, Ferns GA, Lindtner O, Smolders E, Wilks M, Bastaki M, de Sesmaisons-Lecarré A, Ferreira L, Greco L, Kass GEN, Riolo F, and Leblanc JC

Abstract

Copper is an essential micronutrient and also a regulated product used in organic and in conventional farming pest management. Both deficiency and excessive exposure to copper can have adverse health effects. In this Scientific Opinion, the EFSA 2021 harmonised approach for establishing health-based guidance values (HBGVs) for substances that are regulated products and also nutrients was used to resolve the divergent existing HBGVs for copper. The tightly regulated homeostasis prevents toxicity manifestation in the short term, but the development of chronic copper toxicity is dependent on copper homeostasis and its tissue retention. Evidence from Wilson disease suggests that hepatic retention is indicative of potential future and possibly sudden onset of copper toxicity under conditions of continuous intake. Hence, emphasis was placed on copper retention as an early marker of potential adverse effects. The relationships between (a) chronic copper exposure and its retention in the body, particularly the liver, and (b) hepatic copper concentrations and evidence of toxicity were examined. The Scientific Committee (SC) concludes that no retention of copper is expected to occur with intake of 5 mg/day and established an Acceptable Daily Intake (ADI) of 0.07 mg/kg bw. A refined dietary exposure assessment was performed, assessing contribution from dietary and non-dietary sources. Background copper levels are a significant source of copper. The contribution of copper from its use as plant protection product (PPP), food and feed additives or fertilisers is negligible. The use of copper in fertilisers or PPPs contributes to copper accumulation in soil. Infant formula and follow-on formula are important contributors to dietary exposure of copper in infants and toddlers. Contribution from non-oral sources is negligible. Dietary exposure to total copper does not exceed the HBGV in adolescents, adults, elderly and the very elderly. Neither hepatic copper retention nor adverse effects are expected to occur from the estimated copper exposure in children due to higher nutrient requirements related to growth., (© 2023 Wiley‐VCH Verlag GmbH & Co. KgaA on behalf of the European Food Safety Authority.)

Published
2023
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31. Draft for internal testing Scientific Committee guidance on appraising and integrating evidence from epidemiological studies for use in EFSA's scientific assessments.

Author

More S, Bambidis V, Benford D, Bragard C, Hernandez-Jerez A, Bennekou SH, Koutsoumanis K, Machera K, Naegeli H, Nielsen SS, Schlatter JR, Schrenk D, Silano V, Turck D, Younes M, Fletcher T, Greiner M, Ntzani E, Pearce N, Vinceti M, Ciccolallo L, Georgiadis M, Gervelmeyer A, and Halldorsson TI

Abstract

EFSA requested its Scientific Committee to prepare a guidance document on appraising and integrating evidence from epidemiological studies for use in EFSA's scientific assessments. The guidance document provides an introduction to epidemiological studies and illustrates the typical biases of the different epidemiological study designs. It describes key epidemiological concepts relevant for evidence appraisal. Regarding study reliability, measures of association, exposure assessment, statistical inferences, systematic error and effect modification are explained. Regarding study relevance, the guidance describes the concept of external validity. The principles of appraising epidemiological studies are illustrated, and an overview of Risk of Bias (RoB) tools is given. A decision tree is developed to assist in the selection of the appropriate Risk of Bias tool, depending on study question, population and design. The customisation of the study appraisal process is explained, detailing the use of RoB tools and assessing the risk of bias in the body of evidence. Several examples of appraising experimental and observational studies using a Risk of Bias tool are annexed to the document to illustrate the application of the approach. This document constitutes a draft that will be applied in EFSA's assessments during a 1-year pilot phase and be revised and complemented as necessary. Before finalisation of the document, a public consultation will be launched., (© 2020 European Food Safety Authority. EFSA Journal published by John Wiley and Sons Ltd on behalf of European Food Safety Authority.)

Published
2020
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32. Guidance on harmonised methodologies for human health, animal health and ecological risk assessment of combined exposure to multiple chemicals.

Author

More SJ, Bampidis V, Benford D, Bennekou SH, Bragard C, Halldorsson TI, Hernández-Jerez AF, Koutsoumanis K, Naegeli H, Schlatter JR, Silano V, Nielsen SS, Schrenk D, Turck D, Younes M, Benfenati E, Castle L, Cedergreen N, Hardy A, Laskowski R, Leblanc JC, Kortenkamp A, Ragas A, Posthuma L, Svendsen C, Solecki R, Testai E, Dujardin B, Kass GE, Manini P, Jeddi MZ, Dorne JC, and Hogstrand C

Abstract

This Guidance document describes harmonised risk assessment methodologies for combined exposure to multiple chemicals for all relevant areas within EFSA's remit, i.e. human health, animal health and ecological areas. First, a short review of the key terms, scientific basis for combined exposure risk assessment and approaches to assessing (eco)toxicology is given, including existing frameworks for these risk assessments. This background was evaluated, resulting in a harmonised framework for risk assessment of combined exposure to multiple chemicals. The framework is based on the risk assessment steps (problem formulation, exposure assessment, hazard identification and characterisation, and risk characterisation including uncertainty analysis), with tiered and stepwise approaches for both whole mixture approaches and component-based approaches. Specific considerations are given to component-based approaches including the grouping of chemicals into common assessment groups, the use of dose addition as a default assumption, approaches to integrate evidence of interactions and the refinement of assessment groups. Case studies are annexed in this guidance document to explore the feasibility and spectrum of applications of the proposed methods and approaches for human and animal health and ecological risk assessment. The Scientific Committee considers that this Guidance is fit for purpose for risk assessments of combined exposure to multiple chemicals and should be applied in all relevant areas of EFSA's work. Future work and research are recommended., (© 2019 European Food Safety Authority. EFSA Journal published by John Wiley and Sons Ltd on behalf of European Food Safety Authority.)

Published
2019
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33. Guidance on risk assessment of the application of nanoscience and nanotechnologies in the food and feed chain: Part 1, human and animal health.

Author

Hardy A, Benford D, Halldorsson T, Jeger MJ, Knutsen HK, More S, Naegeli H, Noteborn H, Ockleford C, Ricci A, Rychen G, Schlatter JR, Silano V, Solecki R, Turck D, Younes M, Chaudhry Q, Cubadda F, Gott D, Oomen A, Weigel S, Karamitrou M, Schoonjans R, and Mortensen A

Abstract

The European Food Safety Authority has produced this Guidance on human and animal health aspects (Part 1) of the risk assessment of nanoscience and nanotechnology applications in the food and feed chain. It covers the application areas within EFSA's remit, e.g. novel foods, food contact materials, food/feed additives and pesticides. The Guidance takes account of the new developments that have taken place since publication of the previous Guidance in 2011. Potential future developments are suggested in the scientific literature for nanoencapsulated delivery systems and nanocomposites in applications such as novel foods, food/feed additives, biocides, pesticides and food contact materials. Therefore, the Guidance has taken account of relevant new scientific studies that provide more insights to physicochemical properties, exposure assessment and hazard characterisation of nanomaterials. It specifically elaborates on physicochemical characterisation of nanomaterials in terms of how to establish whether a material is a nanomaterial, the key parameters that should be measured, the methods and techniques that can be used for characterisation of nanomaterials and their determination in complex matrices. It also details the aspects relating to exposure assessment and hazard identification and characterisation. In particular, nanospecific considerations relating to in vivo / in vitro toxicological studies are discussed and a tiered framework for toxicological testing is outlined. It describes in vitro degradation, toxicokinetics, genotoxicity as well as general issues relating to testing of nanomaterials. Depending on the initial tier results, studies may be needed to investigate reproductive and developmental toxicity, immunotoxicity, allergenicity, neurotoxicity, effects on gut microbiome and endocrine activity. The possible use of read-across to fill data gaps as well as the potential use of integrated testing strategies and the knowledge of modes/mechanisms of action are also discussed. The Guidance proposes approaches to risk characterisation and uncertainty analysis, and provides recommendations for further research in this area., (© 2018 European Food Safety Authority. EFSA Journal published by John Wiley and Sons Ltd on behalf of European Food Safety Authority.)

Published
2018
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34. The principles and methods behind EFSA's Guidance on Uncertainty Analysis in Scientific Assessment.

Author

Benford D, Halldorsson T, Jeger MJ, Knutsen HK, More S, Naegeli H, Noteborn H, Ockleford C, Ricci A, Rychen G, Schlatter JR, Silano V, Solecki R, Turck D, Younes M, Craig P, Hart A, Von Goetz N, Koutsoumanis K, Mortensen A, Ossendorp B, Germini A, Martino L, Merten C, Mosbach-Schulz O, Smith A, and Hardy A

Abstract

To meet the general requirement for transparency in EFSA's work, all its scientific assessments must consider uncertainty. Assessments must say clearly and unambiguously what sources of uncertainty have been identified and what is their impact on the assessment conclusion. This applies to all EFSA's areas, all types of scientific assessment and all types of uncertainty affecting assessment. This current Opinion describes the principles and methods supporting a concise Guidance Document on Uncertainty in EFSA's Scientific Assessment, published separately. These documents do not prescribe specific methods for uncertainty analysis but rather provide a flexible framework within which different methods may be selected, according to the needs of each assessment. Assessors should systematically identify sources of uncertainty, checking each part of their assessment to minimise the risk of overlooking important uncertainties. Uncertainty may be expressed qualitatively or quantitatively. It is neither necessary nor possible to quantify separately every source of uncertainty affecting an assessment. However, assessors should express in quantitative terms the combined effect of as many as possible of identified sources of uncertainty. The guidance describes practical approaches. Uncertainty analysis should be conducted in a flexible, iterative manner, starting at a level appropriate to the assessment and refining the analysis as far as is needed or possible within the time available. The methods and results of the uncertainty analysis should be reported fully and transparently. Every EFSA Panel and Unit applied the draft Guidance to at least one assessment in their work area during a trial period of one year. Experience gained in this period resulted in improved guidance. The Scientific Committee considers that uncertainty analysis will be unconditional for EFSA Panels and staff and must be embedded into scientific assessment in all areas of EFSA's work., (© 2018 European Food Safety Authority. EFSA Journal published by John Wiley and Sons Ltd on behalf of European Food Safety Authority.)

Published
2018
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35. Guidance on Uncertainty Analysis in Scientific Assessments.

Author

Benford D, Halldorsson T, Jeger MJ, Knutsen HK, More S, Naegeli H, Noteborn H, Ockleford C, Ricci A, Rychen G, Schlatter JR, Silano V, Solecki R, Turck D, Younes M, Craig P, Hart A, Von Goetz N, Koutsoumanis K, Mortensen A, Ossendorp B, Martino L, Merten C, Mosbach-Schulz O, and Hardy A

Abstract

Uncertainty analysis is the process of identifying limitations in scientific knowledge and evaluating their implications for scientific conclusions. It is therefore relevant in all EFSA's scientific assessments and also necessary, to ensure that the assessment conclusions provide reliable information for decision-making. The form and extent of uncertainty analysis, and how the conclusions should be reported, vary widely depending on the nature and context of each assessment and the degree of uncertainty that is present. This document provides concise guidance on how to identify which options for uncertainty analysis are appropriate in each assessment, and how to apply them. It is accompanied by a separate, supporting opinion that explains the key concepts and principles behind this Guidance, and describes the methods in more detail., (© 2018 European Food Safety Authority. EFSA Journal published by John Wiley and Sons Ltd on behalf of European Food Safety Authority.)

Published
2018
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36. Guidance on the assessment of the biological relevance of data in scientific assessments.

Author

Hardy A, Benford D, Halldorsson T, Jeger MJ, Knutsen HK, More S, Naegeli H, Noteborn H, Ockleford C, Ricci A, Rychen G, Schlatter JR, Silano V, Solecki R, Turck D, Younes M, Bresson JL, Griffin J, Hougaard Benekou S, van Loveren H, Luttik R, Messean A, Penninks A, Ru G, Stegeman JA, van der Werf W, Westendorf J, Woutersen RA, Barizzone F, Bottex B, Lanzoni A, Georgiadis N, and Alexander J

Abstract

EFSA requested its Scientific Committee to prepare a guidance document providing generic issues and criteria to consider biological relevance, particularly when deciding on whether an observed effect is of biological relevance, i.e. is adverse (or shows a beneficial health effect) or not. The guidance document provides a general framework for establishing the biological relevance of observations at various stages of the assessment. Biological relevance is considered at three main stages related to the process of dealing with evidence: Development of the assessment strategy. In this context, specification of agents, effects, subjects and conditions in relation to the assessment question(s): Collection and extraction of data; Appraisal and integration of the relevance of the agents, subjects, effects and conditions, i.e. reviewing dimensions of biological relevance for each data set. A decision tree is developed to assist in the collection, identification and appraisal of relevant data for a given specific assessment question to be answered., (© 2017 European Food Safety Authority. EFSA Journal published by John Wiley and Sons Ltd on behalf of European Food Safety Authority.)

Published
2017
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37. Guidance on the use of the weight of evidence approach in scientific assessments.

Author

Hardy A, Benford D, Halldorsson T, Jeger MJ, Knutsen HK, More S, Naegeli H, Noteborn H, Ockleford C, Ricci A, Rychen G, Schlatter JR, Silano V, Solecki R, Turck D, Benfenati E, Chaudhry QM, Craig P, Frampton G, Greiner M, Hart A, Hogstrand C, Lambre C, Luttik R, Makowski D, Siani A, Wahlstroem H, Aguilera J, Dorne JL, Fernandez Dumont A, Hempen M, Valtueña Martínez S, Martino L, Smeraldi C, Terron A, Georgiadis N, and Younes M

Abstract

EFSA requested the Scientific Committee to develop a guidance document on the use of the weight of evidence approach in scientific assessments for use in all areas under EFSA's remit. The guidance document addresses the use of weight of evidence approaches in scientific assessments using both qualitative and quantitative approaches. Several case studies covering the various areas under EFSA's remit are annexed to the guidance document to illustrate the applicability of the proposed approach. Weight of evidence assessment is defined in this guidance as a process in which evidence is integrated to determine the relative support for possible answers to a question. This document considers the weight of evidence assessment as comprising three basic steps: (1) assembling the evidence into lines of evidence of similar type, (2) weighing the evidence, (3) integrating the evidence. The present document identifies reliability, relevance and consistency as three basic considerations for weighing evidence., (© 2017 European Food Safety Authority. EFSA Journal published by John Wiley and Sons Ltd on behalf of European Food Safety Authority.)

Published
2017
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38. Guidance on the risk assessment of substances present in food intended for infants below 16 weeks of age.

Author

Hardy A, Benford D, Halldorsson T, Jeger MJ, Knutsen HK, More S, Naegeli H, Noteborn H, Ockleford C, Ricci A, Rychen G, Schlatter JR, Silano V, Solecki R, Turck D, Bresson JL, Dusemund B, Gundert-Remy U, Kersting M, Lambré C, Penninks A, Tritscher A, Waalkens-Berendsen I, Woutersen R, Arcella D, Court Marques D, Dorne JL, Kass GE, and Mortensen A

Abstract

Following a request from the European Commission to EFSA, the EFSA Scientific Committee (SC) prepared a guidance for the risk assessment of substances present in food intended for infants below 16 weeks of age. In its approach to develop this guidance, the EFSA SC took into account, among others, (i) an exposure assessment based on infant formula as the only source of nutrition; (ii) knowledge of organ development in human infants, including the development of the gut, metabolic and excretory capacities, the brain and brain barriers, the immune system, the endocrine and reproductive systems; (iii) the overall toxicological profile of the substance identified through the standard toxicological tests, including critical effects; (iv) the relevance for the human infant of the neonatal experimental animal models used. The EFSA SC notes that during the period from birth up to 16 weeks, infants are expected to be exclusively fed on breast milk and/or infant formula. The EFSA SC views this period as the time where health-based guidance values for the general population do not apply without further considerations. High infant formula consumption per body weight is derived from 95th percentile consumption. The first weeks of life is the time of the highest relative consumption on a body weight basis. Therefore, when performing an exposure assessment, the EFSA SC proposes to use the high consumption value of 260 mL/kg bw per day. A decision tree approach is proposed that enables a risk assessment of substances present in food intended for infants below 16 weeks of age. The additional information needed when testing substances present in food for infants below 16 weeks of age and the approach to be taken for the risk assessment are on a case-by-case basis, depending on whether the substance is added intentionally to food and is systemically available., (© 2017 European Food Safety Authority. EFSA Journal published by John Wiley and Sons Ltd on behalf of European Food Safety Authority.)

Published
2017
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39. Update: use of the benchmark dose approach in risk assessment.

Author

Hardy A, Benford D, Halldorsson T, Jeger MJ, Knutsen KH, More S, Mortensen A, Naegeli H, Noteborn H, Ockleford C, Ricci A, Rychen G, Silano V, Solecki R, Turck D, Aerts M, Bodin L, Davis A, Edler L, Gundert-Remy U, Sand S, Slob W, Bottex B, Abrahantes JC, Marques DC, Kass G, and Schlatter JR

Abstract

The Scientific Committee (SC) reconfirms that the benchmark dose (BMD) approach is a scientifically more advanced method compared to the NOAEL approach for deriving a Reference Point (RP). Most of the modifications made to the SC guidance of 2009 concern the section providing guidance on how to apply the BMD approach. Model averaging is recommended as the preferred method for calculating the BMD confidence interval, while acknowledging that the respective tools are still under development and may not be easily accessible to all. Therefore, selecting or rejecting models is still considered as a suboptimal alternative. The set of default models to be used for BMD analysis has been reviewed, and the Akaike information criterion (AIC) has been introduced instead of the log-likelihood to characterise the goodness of fit of different mathematical models to a dose-response data set. A flowchart has also been inserted in this update to guide the reader step-by-step when performing a BMD analysis, as well as a chapter on the distributional part of dose-response models and a template for reporting a BMD analysis in a complete and transparent manner. Finally, it is recommended to always report the BMD confidence interval rather than the value of the BMD. The lower bound (BMDL) is needed as a potential RP, and the upper bound (BMDU) is needed for establishing the BMDU/BMDL per ratio reflecting the uncertainty in the BMD estimate. This updated guidance does not call for a general re-evaluation of previous assessments where the NOAEL approach or the BMD approach as described in the 2009 SC guidance was used, in particular when the exposure is clearly smaller (e.g. more than one order of magnitude) than the health-based guidance value. Finally, the SC firmly reiterates to reconsider test guidelines given the expected wide application of the BMD approach., (© 2017 European Food Safety Authority. EFSA Journal published by John Wiley and Sons Ltd on behalf of European Food Safety Authority.)

Published
2017
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