Rethinking chronic toxicity and carcinogenicity assessment for agrochemicals project (ReCAAP): A reporting framework to support a weight of evidence safety assessment without long-term rodent bioassays

Autor: Gina M. Hilton, Catherine Adcock, Gregory Akerman, James Baldassari, Michael Battalora, Warren Casey, Amy J. Clippinger, Rhian Cope, Amber Goetz, A. Wallace Hayes, Sabitha Papineni, Richard C. Peffer, Deborah Ramsingh, Brandy Williamson Riffle, Mitscheli Sanches da Rocha, Natalia Ryan, Edward Scollon, Nicolo Visconti, Douglas C. Wolf, Zhongyu Yan, Anna Lowit
Rok vydání: 2022
Předmět:
Zdroj: Regulatory Toxicology and Pharmacology. 131:105160
ISSN: 0273-2300
Popis: Rodent cancer bioassays have been long-required studies for regulatory assessment of human cancer hazard and risk. These studies use hundreds of animals, are resource intensive, and certain aspects of these studies have limited human relevance. The past 10 years have seen an exponential growth of new technologies with the potential to effectively evaluate human cancer hazard and risk while reducing, refining, or replacing animal use. To streamline and facilitate uptake of new technologies, a workgroup comprised of scientists from government, academia, non-governmental organizations, and industry stakeholders developed a framework for waiver rationales of rodent cancer bioassays for consideration in agrochemical safety assessment. The workgroup used an iterative approach, incorporating regulatory agency feedback, and identifying critical information to be considered in a risk assessment-based weight of evidence determination of the need for rodent cancer bioassays. The reporting framework described herein was developed to support a chronic toxicity and carcinogenicity study waiver rationale, which includes information on use pattern(s), exposure scenario(s), pesticidal mode-of-action, physicochemical properties, metabolism, toxicokinetics, toxicological data including mechanistic data, and chemical read-across from similar registered pesticides. The framework could also be applied to endpoints other than chronic toxicity and carcinogenicity, and for chemicals other than agrochemicals.
Databáze: OpenAIRE