TitleUsing silicone wristbands to evaluate preschool children's exposure to flame retardants
Publication TypeJournal Article
Year of Publication2016
AuthorsKile, ML, Scott, RP, O’Connell, SG, Lipscomb, ST, Macdonald, M, McClelland, MM, Anderson, KA
JournalEnvironmental Research
Volume147
Pagination365 - 372
Date Published05/2016
Abstract
 

Highlights • Silicone wristbands are a non-invasive approach for personal sampling of chemical mixtures. • Flame retardants were stable in a simulation of transport and storage stability in wristband samplers. • A total of 20 flame retardants were detected in silicone wristbands worn by children. • Some flame retardants measured in wristbands were associated with house age, vacuum frequency, and family context. Abstract Silicone wristbands can be used as passive sampling tools for measuring personal environmental exposure to organic compounds. Due to the lightweight and simple design, the wristband may be a useful technique for measuring children's exposure. In this study, we tested the stability of flame retardant compounds in silicone wristbands and developed an analytical approach for measuring 41 flame retardants in the silicone wristband in order to evaluate exposure to these compounds in preschool-aged children. To evaluate the robustness of using wristbands to measure flame retardants, we evaluated the stability of 3 polybrominated diphenyl ethers (BDEs), and 2 organophosphate flame retardants (OPFRs) in wristbands over 84 days and did not find any evidence of significant loss over time at either 4 or −20 °C (p>0.16). We recruited a cohort of 92 preschool aged children in Oregon to wear the wristband for 7 days in order to characterize children's acceptance of the technology, and to characterize their exposure to flame retardants. Seventy-seven parents returned the wristbands for analysis of 35 BDEs, 4 OPFRs, and 2 other brominated flame retardants although 5 were excluded from the exposure assessment due to protocol deviations (n=72). A total of 20 compounds were detected above the limit of quantitation, and 11 compounds including 4 OPFRs and 7 BDEs were detected in over 60% of the samples. Children's gender, age, race, recruitment site, and family context were not significantly associated with returning wristbands or compliance with protocols. Comparisons between flame retardant data and socio-demographic information revealed significant differences in total exposures to both ΣBDEs and ΣOPFRs based on age of house, vacuuming frequency, and family context. These results demonstrate that preschool children in Oregon are exposed to BDEs that are no longer being produced in the United States and to OPFRs that have been used as an alternative to polybrominated compounds. Silicone wristbands were well tolerated by young children and were useful for characterizing personal exposure to flame retardants that were not bound to particulate matter.

DOI10.1016/j.envres.2016.02.034