| In silico prediction of endocrine activity | DA Jiskoot, JLA Penning, WJGM Peijnenburg, GJP van Westen, W Jespers, PNH Wassenaar | Trends Encrinol Metabolism 2025; epub ahead of print |
| Inventory of possible endocrine disrupting chemicals used in cosmetic products | MC medisch centrum (medisch centrum) Bouwmeester, GAM Eliesen, JLA Pennings, SWP Wijnhoven, EVS Hessel | Crit Rev Toxicol 2025; 55(7):693-706 |
| In vitro human brain barrier models for studying thyroid hormone transport | K Heikamp, T Hamers, EVS Hessel | Crit Rev Toxicol 2025; 55(6):645-61 |
| Mechanisms of developmental neurotoxicity mediated by perturbed thyroid hormone homeostasis in the brain: an adverse outcome pathway network | NTOM Dierichs, AH Piersma, RP Responsible Person (Responsible Person) Peeters, EW Visser, ME Meima, EVS Hessel | Crit Rev Toxicol 2025; 55(3):304-20 |
| Fish models of obesity, test guidelines, and regulatory challenges of identifying non-EATS endocrine disruptors | ZCDang | Sci Total Environ 2025; 1003:180680 |
| Comparison of fish and mammalian adipogenesis in vitro: Implications for regulating endocrine disruptors | Z Dang | Crit Rev Environ Sci Technol 2025; 55(8):507-35 |
| Evaluation of in vivo fish and amphibian endocrine test guideline assays: current status and future needs | N Burden, CA Mitchell, Z Dang, MR antimicrobial resistance (antimicrobial resistance) Embry, S Glaberman, L Lagadic, et al. | Environ Toxicol Chem 2025; 44(6)1477-96 |
| Workshop report: scoping for the development of a proposal for an OECD guidance document on fish vitellogenin assessment | N Burden, C Aubee, J Augusiak, M Baccaro, S Boehler, Z Dang, et al. | Integr Environ Assess Manage 2025; epub ahead of print |
| A prioritization strategy for functional alternatives to bisphenol A in food contact materials | AD van den Brank, EVS Hessel, R Rijk, B van de Ven, NM Leijten, E Rorije, SP Sustainable Procurement (Sustainable Procurement) den Braver-Sewradj | Crit Rev Toxicol 2024; 54(5):291-314 |
| Amphibian toxicity testing for identification of thyroid disrupting chemicals | Z Dang | Environ Pollut 2022; 311:120006 |
| Assessment of the endocrine disrupting properties of bisphenol AF: a case study applying the European regulatory criteria and guidance | L Escriva, J Zilliacus, E Hessel, A Beronius | Environ Health 2021; 20:48 |
| Fish toxicity testing for identification of thyroid disrupting chemicals | Z Dang, M Arena, A Kienzler | Environ Pullut 2021; 284:117374 |
| Feasibility of using interspecies relationships for integration of human and environmental hazard assessment | J de Knecht, E Rorije, L Maslankiewicz, Z Dang | Human Ecol Risk Assess 2021; 27(6):1715-31 |
| An update on the hazard of and exposure to diethyl hexyl phthalate (DEHP) alternatives used in medical devices | SP den Braver-Sewradj, A Piersma, EVS Hessel | Crit Rev Toxicol 2020; 50(8):650-72 |
| Substitution of bisphenol A: a review of the carcinogenicity, reproductive toxicity, and endocrine disruption potential of alternative substances | SP den Braver-Sewradj, R van Spronsen, EVS Hessel | Crit Rev Toxicol 2020; 50(2):128-47 |
| A validated search filter for the identification of endocrine disruptors based on the ECHA/EFSA guidance recommendations | L Escriva, E Hessel, S Gustafsson, R van Spronsen, M Svanberg, A Beronius | Environment Int 2020; 142:105828 |
| Analysis of different preferences for the EU's regulatory options for endocrine disruptor identification criteria using argumentation theory | SCS Clahsen, L Moss, I van Kamp, TG Vermeire, BJ Garssen, AH Piersma, E Lebret | Sci Total Environ 2020; 740:140076 |
| Understanding conflicting views of endocrine disruptor experts: a pilot study using argumentation analysis | SCS Clahsen, HS van Klaveren, TG Vermeire, I van Kamp, B Garssen, AH Piersma, E Lebret | J Risk Res 2020; 23(1):62-80 |
Rijksinstituut voor Volksgezondheid