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Occupational exposure to antimony trioxide: a risk assessment

Samantha Schildroth, Gwendolyn Osborne, Anna R. Smith, Caryn Yip, Caroline Collins, Martyn T. Smith, Martha S. Sandy, Luoping Zhang

2020Occupational and Environmental Medicine24 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: ' based on sufficient evidence of carcinogenicity in experimental animals and supporting evidence from mechanistic studies. Our goal was to estimate the possible human cancer risk from occupational exposure to antimony trioxide. METHODS: We selected data from 2-year inhalation studies in male and female mice conducted by the NTP and performed cancer dose-response analyses using cancer models and benchmark dose methods developed by the US Environmental Protection Agency. In these analyses, we generated benchmark doses and cancer slope factors for antimony trioxide, and then estimated human cancer risk under various exposure scenarios. Typical and worst-case inhalation scenarios in multiple occupational settings were used in risk estimation. RESULTS: In typical case scenarios, the occupational cancer risk from antimony trioxide was estimated to be 0.025 (25 in 1000) for persons working with flame retardants in plastics and textiles for 40 years. Under worst-case scenarios, the occupational cancer risk was estimated to be 0.11 (110 in 1000) for persons working with flame retardants in plastics and textiles. At the current Occupational Safety and Health Administration Permissible Exposure Limit, the cancer risk for occupational inhalation exposure of antimony trioxide was estimated to be 0.096 (96 in 1000). CONCLUSION: The risk estimates calculated in this study suggest that exposure to antimony trioxide at levels present in certain occupational settings results in a large increase in the risk of developing cancer.

Topics & Concepts

Antimony trioxideCarcinogenEnvironmental healthMedicineInhalationInhalation exposureRisk assessmentOccupational exposureCancerToxicologyAntimonyInternal medicineChemistryBiologyAnesthesiaComputer scienceFire retardantComputer securityOrganic chemistryInorganic chemistryCarcinogens and Genotoxicity AssessmentToxic Organic Pollutants ImpactPesticide Exposure and Toxicity