Temporal variability of indoor dust concentrations of semivolatile organic compounds

Kim, Kyunghoon; Shin, Hyeong‐Moo; Wong, Luann; Young, Thomas M.; Bennett, Deborah H.

doi:10.1111/ina.12759

Cited by 15 publications

(14 citation statements)

References 58 publications

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“…Comparison of our urinary concentrations with those in other U.S. study populations allowed us to observe geographic variations in pregnant women’s exposure to some phenols and parabens, which may be associated with differences in regulatory status, socioeconomic status, racial composition, and potential changes in product use after being pregnant. As other BPA alternatives that were not targeted for analysis in the current study [i.e., bisphenol A bis (2,3-dihydroxypropyl) ether, bisphenol A (3-chloro-2-hydroxypropyl) (2,3-dihydroxypropyl) ether, and bisphenol AF] were detected in U.S. residential indoor dust collected during 2015–2016, , future studies may benefit by measuring these BPA alternatives to gain insight into trends in total bisphenol exposure. As transparent product composition information is not readily available from all manufacturers, characterizing comprehensive temporal biomarker trends of phenols, parabens, and TCC in pregnant women will help us to understand the effects of regulations or advocacy campaigns on exposure trends and to identify chemicals with similar use or functions in products that are increasing over time.…”

Section: Discussionmentioning

confidence: 99%

“…Some environmental phenols, parabens, and triclocarban (TCC) are widely used in various consumer and personal care products. , Bisphenols are used as plasticizers, and other phenols and TCC are commonly used as antimicrobial preservatives in toothpaste, soaps, and detergents. − Parabens are primarily used as preservatives in shampoos, lotions, sunscreens, deodorants, cosmetics, and pharmaceutical products . Because products containing phenols, parabens, and TCC are widely used, they are detected in U.S. household dust − and in urine of a large, representative sample of the U.S. population as well as pregnant women, infants, and young children. − …”

Section: Introductionmentioning

confidence: 99%

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Temporal Trends of Phenol, Paraben, and Triclocarban Exposure in California Pregnant Women during 2007–2014

Kim

Shin

Busgang

et al. 2021

Environ. Sci. Technol.

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Little is known about temporal trends of pregnant women’s exposures to environmental phenols and parabens. We quantified four phenols [bisphenol A (BPA), bisphenol F, bisphenol S, and triclosan), four parabens [butyl paraben, ethyl paraben (ETPB), methyl paraben (MEPB), and propyl paraben (PRPB)], and triclocarban in 760 urine samples collected during 2007–2014 from 218 California pregnant women participating in a high-familial risk autism spectrum disorder cohort. We applied multiple regression to compute least square geometric means of urinary concentrations and computed average annual percent changes. We compared our urinary concentrations with those of other study populations to examine geographic variations in pregnant women’s exposure to these target compounds. Urinary concentrations of BPA, MEPB, ETPB, and PRPB in this study population decreased over the study period [percent change per year (95% confidence interval): −5.7% (−8.2%, −3.2%); −13.0% (−18.1%, −7.7%); −5.5% (−11.0%, 0.3%); and −13.3% (−18.3%, −8.1%), respectively] and were consistently lower than those in pregnant women in other U.S. regions during the same study period. In recent years, certain phenols and parabens with known adverse health effects are being regulated or replaced with alternatives, which explains decreased body burdens observed in this study population. Either the national regulations or the advocacy campaigns in California may have influenced exposures or consumer product choices.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Temporal Trends of Phenol, Paraben, and Triclocarban Exposure in California Pregnant Women during 2007–2014

Kim

Shin

Busgang

et al. 2021

Environ. Sci. Technol.

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“…Methods for analyzing pesticide content of woodchips prior to experimentation were adapted from related methods. , Briefly, three replicates of about 10 g of sieved woodchips were freeze-dried using a HarvestRight (North Salt Lake, UT) freeze dryer, then ground using a Retsch Ball Mill MM 400 (Verder Scientific GmbH & Co. KG) at a frequency of 30 cycles/s for 6 min. Ground samples were sieved using a 106 μm sieve, and about 0.4 g of the sieved samples were weighed out into 15 mL centrifuge tubes.…”

Section: Methodsmentioning

confidence: 99%

Assessment of Woodchip Bioreactor Characteristics and Their Influences on Joint Nitrate and Pesticide Removal

et al. 2021

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We constructed a bench-scale continuous-flow (8 L total volume, 4.3 L/day) woodchip bioreactor and operated the reactor under field-like conditions to evaluate joint pesticide and nitrate removal. The continuous-flow reactor achieved 83.5 ± 8% diuron removal and 61.6 ± 11.9% imidacloprid removal with a 24 h hydraulic retention time (HRT). We designed a sequencing-batch reactor configuration (8 L total volume) to evaluate the impact of an aerobic phase on denitrification and pesticide removal performance. The sequencing-batch reactor achieved 89.2 ± 8.8% nitrate removal with a hydraulic retention time (HRT) of 12 h, while the continuous-flow design achieved 55.6 ± 9.1% nitrate removal with a 12 h HRT. There was no significant difference between pesticide removal between sequencing-batch and continuous-flow reactor types (p = 0.655 and p = 0.316 for diuron and imidacloprid removal, respectively). Kinetic batch tests revealed sorption, not microbial degradation, as the main mechanism of removal for both diuron and imidacloprid under denitrifying conditions. Imidacloprid removal ranged from 440.4 to 532.0 ng/gwoodchip (dry mass) and diuron removal between 468.6 and 553.8 ng/g-woodchip (dry mass) over 24 h. The bench-scale evaluation of pesticide behavior in woodchip bioreactors highlights the need to improve microbial degradation in such best management practices for pesticide removal.

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“…Dust is also a reasonably convenient matrix since there is typically a large enough amount available for multiple analyses to be conducted similar to wristbands. SVOCs tend to be relatively stable over time in the dust matrix, having low temporal variability over time ( Kim et al, 2021 ; Al-Omran and Harrad, 2018 ). In addition, the National Institute of Standards and Technology (NIST) has several indoor dust Standard Reference Materials (SRMs) available and certified for several classes of compounds to support QA/QC needs.…”

Section: Comparison To Other Exposure Assessment Toolsmentioning

confidence: 99%

Silicone wristbands as personal passive sampling devices: Current knowledge, recommendations for use, and future directions

Samon

Hammel²,

Stapleton³

et al. 2022

Environment International

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Temporal variability of indoor dust concentrations of semivolatile organic compounds

Cited by 15 publications

References 58 publications

Temporal Trends of Phenol, Paraben, and Triclocarban Exposure in California Pregnant Women during 2007–2014

Temporal Trends of Phenol, Paraben, and Triclocarban Exposure in California Pregnant Women during 2007–2014

Assessment of Woodchip Bioreactor Characteristics and Their Influences on Joint Nitrate and Pesticide Removal

Silicone wristbands as personal passive sampling devices: Current knowledge, recommendations for use, and future directions

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