Inhalation and dermal absorption as dominant pathways of PCB exposure for residents of contaminated apartment buildings

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Inhalation and dermal absorption as dominant pathways of PCB exposure for residents of contaminated apartment buildings. / Hammel, Stephanie C.; Andersen, Helle Vibeke; Knudsen, Lisbeth E.; Frederiksen, Marie.

I: International Journal of Hygiene and Environmental Health, Bind 247, 114056, 2023.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Hammel, SC, Andersen, HV, Knudsen, LE & Frederiksen, M 2023, 'Inhalation and dermal absorption as dominant pathways of PCB exposure for residents of contaminated apartment buildings', International Journal of Hygiene and Environmental Health, bind 247, 114056. https://doi.org/10.1016/j.ijheh.2022.114056

APA

Hammel, S. C., Andersen, H. V., Knudsen, L. E., & Frederiksen, M. (2023). Inhalation and dermal absorption as dominant pathways of PCB exposure for residents of contaminated apartment buildings. International Journal of Hygiene and Environmental Health, 247, [114056]. https://doi.org/10.1016/j.ijheh.2022.114056

Vancouver

Hammel SC, Andersen HV, Knudsen LE, Frederiksen M. Inhalation and dermal absorption as dominant pathways of PCB exposure for residents of contaminated apartment buildings. International Journal of Hygiene and Environmental Health. 2023;247. 114056. https://doi.org/10.1016/j.ijheh.2022.114056

Author

Hammel, Stephanie C. ; Andersen, Helle Vibeke ; Knudsen, Lisbeth E. ; Frederiksen, Marie. / Inhalation and dermal absorption as dominant pathways of PCB exposure for residents of contaminated apartment buildings. I: International Journal of Hygiene and Environmental Health. 2023 ; Bind 247.

Bibtex

@article{bda6b0a7dec342d48415e423a67b5f09,

title = "Inhalation and dermal absorption as dominant pathways of PCB exposure for residents of contaminated apartment buildings",

abstract = "Applications of polychlorinated biphenyls (PCBs) in buildings and their persistence in indoor environments have led to cases of current and highly elevated exposure in humans, despite the global cease of production decades ago. Personal exposure to PCBs was assessed among residents in a social housing estate in Denmark containing both contaminated (n = 67) and non-contaminated (n = 23) apartments. Samples and estimated daily intakes (EDIs) were assessed for 15 PCB congeners, and body burden, which was limited by the dietary data availability, was compared across 7 indicator PCBs, with its sum (PCBsum7) often applied in European regulation of PCBs. Median PCBsum7 EDI across measured pathways for exposed residents was 101 ng· (kg bodyweight)−1· day−1, with the majority of exposure (60%) coming from inhalation of contaminated indoor air. Calculated from both PCBs measured in indoor air and on hand wipes, dermal absorption estimates showed comparable results and served as a secondary exposure pathway, accounting for 35% of personal exposure and considering selected assumptions and sources of physical-chemical parameters. Estimates revealed that diet was the primary PCB source among the reference group, accounting for over 75% of the PCBsum7 EDI across exposure routes. When evaluating overall EDIs across the two study groups and including dietary estimates, PCB exposure among exposed residents was around 10 times higher than the reference group. Solely within the exposed population, pathway-specific body burdens were calculated to account for exposure across years of residence in contaminated apartments, where lower chlorinated PCBs were dominant in indoor air. Among these dominant congeners, estimated body burdens of PCB-28 and -52 were significantly correlated with measured serum (rs = 0.49, 0.45; p < 0.001). This study demonstrates that inhalation and dermal absorption serve as dominant exposure pathways for residents of apartments contaminated with predominantly lower chlorinated PCBs and suggest that predictions of body burden from indoor environment measurements may be comparable to measured serum PCBs.",

keywords = "Body burden, Dermal uptake, Exposure pathways, Indoor exposure, Inhalation, Polychlorinated biphenyl",

author = "Hammel, {Stephanie C.} and Andersen, {Helle Vibeke} and Knudsen, {Lisbeth E.} and Marie Frederiksen",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors",

year = "2023",

doi = "10.1016/j.ijheh.2022.114056",

language = "English",

volume = "247",

journal = "International Journal of Hygiene and Environmental Health",

issn = "1438-4639",

publisher = "Elsevier GmbH - Urban und Fischer",

}

RIS

TY - JOUR

T1 - Inhalation and dermal absorption as dominant pathways of PCB exposure for residents of contaminated apartment buildings

AU - Hammel, Stephanie C.

AU - Andersen, Helle Vibeke

AU - Knudsen, Lisbeth E.

AU - Frederiksen, Marie

PY - 2023

Y1 - 2023

N2 - Applications of polychlorinated biphenyls (PCBs) in buildings and their persistence in indoor environments have led to cases of current and highly elevated exposure in humans, despite the global cease of production decades ago. Personal exposure to PCBs was assessed among residents in a social housing estate in Denmark containing both contaminated (n = 67) and non-contaminated (n = 23) apartments. Samples and estimated daily intakes (EDIs) were assessed for 15 PCB congeners, and body burden, which was limited by the dietary data availability, was compared across 7 indicator PCBs, with its sum (PCBsum7) often applied in European regulation of PCBs. Median PCBsum7 EDI across measured pathways for exposed residents was 101 ng· (kg bodyweight)−1· day−1, with the majority of exposure (60%) coming from inhalation of contaminated indoor air. Calculated from both PCBs measured in indoor air and on hand wipes, dermal absorption estimates showed comparable results and served as a secondary exposure pathway, accounting for 35% of personal exposure and considering selected assumptions and sources of physical-chemical parameters. Estimates revealed that diet was the primary PCB source among the reference group, accounting for over 75% of the PCBsum7 EDI across exposure routes. When evaluating overall EDIs across the two study groups and including dietary estimates, PCB exposure among exposed residents was around 10 times higher than the reference group. Solely within the exposed population, pathway-specific body burdens were calculated to account for exposure across years of residence in contaminated apartments, where lower chlorinated PCBs were dominant in indoor air. Among these dominant congeners, estimated body burdens of PCB-28 and -52 were significantly correlated with measured serum (rs = 0.49, 0.45; p < 0.001). This study demonstrates that inhalation and dermal absorption serve as dominant exposure pathways for residents of apartments contaminated with predominantly lower chlorinated PCBs and suggest that predictions of body burden from indoor environment measurements may be comparable to measured serum PCBs.

AB - Applications of polychlorinated biphenyls (PCBs) in buildings and their persistence in indoor environments have led to cases of current and highly elevated exposure in humans, despite the global cease of production decades ago. Personal exposure to PCBs was assessed among residents in a social housing estate in Denmark containing both contaminated (n = 67) and non-contaminated (n = 23) apartments. Samples and estimated daily intakes (EDIs) were assessed for 15 PCB congeners, and body burden, which was limited by the dietary data availability, was compared across 7 indicator PCBs, with its sum (PCBsum7) often applied in European regulation of PCBs. Median PCBsum7 EDI across measured pathways for exposed residents was 101 ng· (kg bodyweight)−1· day−1, with the majority of exposure (60%) coming from inhalation of contaminated indoor air. Calculated from both PCBs measured in indoor air and on hand wipes, dermal absorption estimates showed comparable results and served as a secondary exposure pathway, accounting for 35% of personal exposure and considering selected assumptions and sources of physical-chemical parameters. Estimates revealed that diet was the primary PCB source among the reference group, accounting for over 75% of the PCBsum7 EDI across exposure routes. When evaluating overall EDIs across the two study groups and including dietary estimates, PCB exposure among exposed residents was around 10 times higher than the reference group. Solely within the exposed population, pathway-specific body burdens were calculated to account for exposure across years of residence in contaminated apartments, where lower chlorinated PCBs were dominant in indoor air. Among these dominant congeners, estimated body burdens of PCB-28 and -52 were significantly correlated with measured serum (rs = 0.49, 0.45; p < 0.001). This study demonstrates that inhalation and dermal absorption serve as dominant exposure pathways for residents of apartments contaminated with predominantly lower chlorinated PCBs and suggest that predictions of body burden from indoor environment measurements may be comparable to measured serum PCBs.

KW - Body burden

KW - Dermal uptake

KW - Exposure pathways

KW - Indoor exposure

KW - Inhalation

KW - Polychlorinated biphenyl

U2 - 10.1016/j.ijheh.2022.114056

DO - 10.1016/j.ijheh.2022.114056

M3 - Journal article

C2 - 36395656

AN - SCOPUS:85141946809

VL - 247

JO - International Journal of Hygiene and Environmental Health

JF - International Journal of Hygiene and Environmental Health

SN - 1438-4639

M1 - 114056

ER -

ID: 337595332