Organophosphate Flame Retardants in House Dust from South China and Related Human Exposure Risks

Tan, Hongli; Peng, Changfeng; Guo, Ying; Wang, Xiaodong; Wu, Yan; Chen, Da

doi:10.1007/s00128-017-2120-8

Cited by 42 publications

(12 citation statements)

References 35 publications

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“…Gunderson et al reported that the mean daily intake of TBEP in infants and juveniles could be estimated at 0.2‐14.4 ng/kg/day (Gunderson, 1988, 1995a, 1995b), which is analogous to the low dose of TBEP used in our study. Tan and his colleagues showed that the estimated daily intake of OPFRs for toddlers is 31.7 and 127 ng/kg/day under the average and high exposure scenarios, respectively, which are much greater than those for PBDEs (Tan et al, 2017). Furthermore, Fromme et al reported that the daily intake of 10 OPFRs derived from dust and air for children is estimated to be 3.2 μg/kg/day, and TBEP was most abundant among OPFRs (Fromme et al, 2014).…”

Section: Discussionmentioning

confidence: 99%

The impact of oral exposure to low‐dose tris(2‐butoxyethyl) phosphate in allergic asthmatic mice

Yanagisawa

Koike

Win-Shwe

et al. 2020

J of Applied Toxicology

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Tris(2-butoxyethyl) phosphate (TBEP) is a major organophosphorus flame retardant and has been widely increasing as a substitute for brominated flame retardants. TBEP may have adverse effects on human health; however, its impact on immune and allergic responses remains largely uncharacterized. In this study, the effects of low-dose TBEP comparable with the level of actual human exposure to that of human tolerable daily intake on allergic asthmatic mice were explored. Five-week-old C3H/HeJSlc male mice consumed a diet containing approximately 0.02, 0.2 or 2 μg/kg/day TBEP and were intratracheally administrated ovalbumin (OVA) (1 μg/mouse every 2 weeks from 5 to 11 weeks of age). Exposure to 2 μg/kg/day TBEP with OVA tended to enhance allergic pulmonary inflammation and significantly elevated mRNA levels of interleukin-5, eotaxin-1 and estrogen receptor alpha (ERα) compared with OVA alone. In mediastinal lymph nodes (MLNs), TBEP (0.2 or 2 μg/kg/day) with OVA significantly increased in total cell number and promoted conventional dendritic cell activation than OVA alone; MLN cell proliferation by OVA restimulation was also enhanced in these groups. In the bone marrow (BM), TBEP (0.02 or 0.2 μg/kg/day) with OVA resulted in a net decrease in total cell number and fraction of CCR2 + Gr-1 + cells; the fraction of Gr-1 + cells increased. In conclusion, oral exposure to low-dose TBEP levels equivalent to tolerable daily intake may exacerbate allergic pulmonary inflammation by promoting a skewed T-helper 2 cell response, upregulation of ERα and dysregulation of both MLN and BM microenvironments. K E Y W O R D S allergic asthma, estrogen receptor, low-dose effects, organophosphorus flame retardants, Th2 response, tris(2-butoxyethyl) phosphate 1 | INTRODUCTION Flame retardants (FRs) are used globally to meet flammability standards for building materials, textiles and appliances. Because of their toxicity, persistence in the environment and bioaccumulation, brominated FRs, including polybrominated diphenyl ethers, have been banned or voluntarily phased out in many countries. There is growing demand for less toxic alternatives (van der Veen & de Boer, 2012). In particular, the use of organophosphorus FRs (OPFRs) as FRs and plasticizers in consumer products, including plastics, textiles, paints and furniture, is gaining popularity (Marklund, Andersson, & Haglund, 2005). In Japan, approximately 100 000 tons of FR materials are used per year, of which about 27% were OPFRs (Ministry of the Environment in Japan, 2017). In the United States, the Agency for Toxic Substances and Disease Registry reports that OPFRs account for 11.5% of the total consumption of FRs (Agency for Toxic

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Section: Discussionmentioning

confidence: 99%

The impact of oral exposure to low‐dose tris(2‐butoxyethyl) phosphate in allergic asthmatic mice

Yanagisawa

Koike

Win-Shwe

et al. 2020

J of Applied Toxicology

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“…-Organic emissions from PU materials in the context of human health and exposure are investigated -Reported VOC and SVOC concentrations from PU insulation and household materials are reviewed -OFRs are emitted in the long term and are found abundantly indoors even in buildings with no PU insulation -Amines impact perceived IAQ, but it's unclear which PU compound/s impact health individually or cumulatively , 1987IPCC, 2013IPCC, , 2014EU, 2014;EPA, 2016;Australian Government, 2017) concentration of all studies. (Stapleton et al, 2009;Ali et al, 2012Ali et al, , 2018Fromme et al, 2014;He et al, 2015;Hammel et al, 2017;Tan et al, 2017;Bi et al, 2018;Deng et al, 2018)…”

Section: Highlightsmentioning

confidence: 99%

“…Concentration of TDCPP in cars (Brommer et al, 2012;Cristale et al, 2018) was found to be 14-2,280 times higher than the concentration in buildings as per Appendix C. The mean concentrations of flame retardants in dust from 13 studies in 7 countries from indoor spaces (n=502) are plotted in Figure 7. (Stapleton et al, 2009;Ali et al, 2012Ali et al, , 2018Fromme et al, 2014;He et al, 2015;Hammel et al, 2017;Tan et al, 2017;Bi et al, 2018;Deng et al, 2018) Figure 7 shows that the mean concentration of TCPP in settled dust is 3010 ng/g, of TCEP is 1895 ng/g and of TDCPP is 1844 ng/g based on 502 indoor samples from four continents.…”

Section: Flame Retardantsmentioning

confidence: 99%

“…Scale is logarithmic. Dotted lines represents arithmetic mean (AM) concentration of all studies (Stapleton et al, 2009;Ali et al, 2012Ali et al, , 2018Fromme et al, 2014;He et al, 2015;Hammel et al, 2017;Tan et al, 2017;Bi et al, 2018;Deng et al, 2018). .................................................................................................................................................... 18…”

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confidence: 99%

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Polyurethane insulation and household products – A systematic review of their impact on indoor environmental quality

Naldzhiev

Mumovic

Strlič

2020

Building and Environment

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We systematically review the impact of polyurethane insulation and polyurethane household products on the indoor environmental quality of buildings. The review breaks down polyurethane products into constituent compounds (isocyanate, polyol, flame retardant, blowing agent and catalyst) as well as secondary emissions, and discusses their implications on human health. Concentrations of compounds emitted from insulation, and household materials, measured in laboratory experiments and case studies are presented in the context of the built environment.We would like to thank Dr Dustin Poppendieck (National Institute of Standards and Technology) and Elizabeth Cooper (UCL Institute for Environmental Design and Engineering) for critically reviewing the paper and assisting with expert advice on exposure assessments and organic emissions. Their suggestions and valuable comments improved and clarified the manuscript.The lead author is part of the Centre for Doctoral Training in Science and Engineering in Arts, Heritage and Archaeology (SEAHA). This research has been made possible through funding provided by the Engineering and Physical Sciences Research Council (EPSRC) under award reference number EP/L016036/1.

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“…However, it is easy for OPEs to enter the environment through volatilization, product wear, leakage and other ways in the process of production, transportation and use, because OPEs was added in the material by physical addition rather than chemical bonding (Gao et al, 2014). At present, OPEs widely existed in water (Kim et al, 2018;Yin et al, 2021), soil (Yin et al, 2016;Yang et al, 2018), outdoor air (Yin et al, 2020;Javier et al, 2016) and indoor (Tan et al, 2017) environment, even in many kinds of animals and plants (Wan et al, 2017;Strobel et al, 2018), human urine (Schindler et al, 2009) and breast milk (Sundkvist et al, 2010). Unfortunately, previous studies have demonstrated that some OPEs have the characteristics of carcinogenesis, neurotoxicity and reproductive toxicity that may bring risks to human health (Kim et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Pollution Characteristics and Emissions of Typical Organophosphate Esters From a Wastewater Treatment Plant in Chengdu, China

Yin

Luo

Song

et al. 2021

Preprint

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Effluent from wastewater treatment plants (WWTP) is an important source of organophosphate esters (OPEs) in the receiving rivers. In this paper, the concentration and distribution of seven OPEs in the water samples were determined, and the discharge was estimated. The results showed that the total removal rate of Σ7OPEs in water phase in WWTP was 57.2%. The average concentrations of Σ7OPEs in influent and effluent of the WWTP during rainy period were 3956.1 ± 1897.3 ng/L and 1461.9 ± 846.3 ng/L, respectively, which were about 4 times larger than those in influent water (978.2 ± 166.5 ng/L) and effluent (418.3 ± 12.0 ng/L) during non-rainy period, indicating that rainfall has a marked impact on the load of OPEs in WWTP and the receiving water. It was estimated that the average daily discharge of Σ7OPEs in the effluent of WWTP was 157.9 g, and the daily per capita contribution of the population in the area to the OPEs in the influent was 0.414 mg. During the shift of labour-intensive manufacturing from the coastal developed areas to inland regions, OPEs were widely used and produced in Southwest China. The total amount of OPEs emissions and its control should be taken into consideration.

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Organophosphate Flame Retardants in House Dust from South China and Related Human Exposure Risks

Cited by 42 publications

References 35 publications

The impact of oral exposure to low‐dose tris(2‐butoxyethyl) phosphate in allergic asthmatic mice

The impact of oral exposure to low‐dose tris(2‐butoxyethyl) phosphate in allergic asthmatic mice

Polyurethane insulation and household products – A systematic review of their impact on indoor environmental quality

Pollution Characteristics and Emissions of Typical Organophosphate Esters From a Wastewater Treatment Plant in Chengdu, China

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