An updated mode of action and human relevance framework evaluation for Formaldehyde-Related nasal tumors
Chad M. Thompson, Robinan Gentry, Seneca Fitch, Kun Lü, Harvey J. Clewell
Abstract
genotoxicity assays, toxicogenomic analyses, and development of ultra-sensitive methods to measure endogenous and exogenous formaldehyde-induced DNA adducts. Herein, we review and update the MOA for nasal tumors, with particular emphasis on the numerous studies published since 2006. These new studies further underscore the involvement of cytotoxicity and regenerative cell proliferation, and further inform the genotoxic potential of inhaled formaldehyde. The data lend additional support for the use of mechanistic data for the derivation of toxicity criteria and/or scientifically supported approaches for low-dose extrapolation for the risk assessment of formaldehyde.
Topics & Concepts
Relevance (law)Action (physics)Mode of actionFormaldehydeMedicineChemistryToxicologyBiologyBiochemistryPolitical sciencePhysicsQuantum mechanicsLawInfectious Diseases and MycologyIndoor Air Quality and Microbial ExposureOdor and Emission Control Technologies