Can polychlorinated biphenyl (PCB) signatures and enantiomer fractions be used for source identification and to age date occupational exposure?
Can polychlorinated biphenyl (PCB) signatures and enantiomer fractions be used for source identification and to age date occupational exposure?
Detailed polychlorinated biphenyl (PCB) signatures and chiral Enantiomer Fractions (EFs) of CB-95, CB-136 and CB-149 were measured for 30 workers at a transformer dismantling plant. This was undertaken to identify sources of exposure and investigate changes to the PCB signature and EFs over different exposure periods. Approximately 1.5g of serum was extracted and PCB signatures were created through analysis by comprehensive two-dimensional gas chromatography with time-of-flight mass spectrometry (GC×GC-TOFMS) and EFs calculated following analysis by gas chromatography with high resolution mass spectrometry (GC-HRMS). A total of 84 PCBs were identified in the serum samples with concentrations of the 7 indicator PCBs ranging from 11-350ngg-1 of serum (1.2-39μgg-1 lipid). The PCB signatures were interpreted using principal component analysis (PCA) which was able to distinguish workers with background or recent minimal exposure from those with prolonged occupational exposure. Occupationally exposed individuals had a similar PCB profile to Aroclor A1260. However, individuals with prolonged exposure had depleted proportions of several PCB congeners that are susceptible to metabolism (CB-95, CB-101 and CB-151) and elevated proportions of PCBs that are resistant to metabolism (CB-74, CB-153, CB-138 and CB-180). The results also identified a third group of workers with elevated proportions of CB-28, CB-60, CB-66, CB-74, CB-105 and CB-118 who appeared to have been exposed to an additional source of PCBs. The results show near complete removal of the CB-95 E2 enantiomer in some samples, indicating that bioselective metabolism or preferential excretion of one enantiomer occurs in humans. By considering PCB concentrations along with detailed congener specific signatures it was possible to identify different exposure sources, and gain an insight into both the magnitude and duration of exposure.
Chemical fingerprinting, Chiral, Enantiomer fractions, GC×GC-TOFMS, Human exposure, PCB atropisomers, Polychlorinated biphenyls (PCBs)
56-63
Megson, David
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Focant, Jean Françios
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Patterson, Donald G.
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Robson, Matthew
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Lohan, Maeve C.
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Worsfold, Paul J.
27675f89-7eee-45c5-821e-a381d8db9693
Comber, Sean
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Kalin, Robert
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Reiner, Eric
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O'Sullivan, Gwen
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1 August 2015
Megson, David
8f149361-86db-468c-897d-510bf5e470a8
Focant, Jean Françios
245046b8-89d0-4721-8c71-a22fd0a5b163
Patterson, Donald G.
78fb7d17-68e4-45fc-b980-9384fe05f829
Robson, Matthew
5ca356f7-e4ed-40f9-b045-301c9ad0026a
Lohan, Maeve C.
6ca10597-2d0f-40e8-8e4f-7619dfac5088
Worsfold, Paul J.
27675f89-7eee-45c5-821e-a381d8db9693
Comber, Sean
cd5302d9-9c84-418f-8475-10e46eb059a4
Kalin, Robert
f0707b24-82db-4a48-a873-98666499d141
Reiner, Eric
3ec98fdb-ab92-4ce4-b8e5-e0398c8ca8f5
O'Sullivan, Gwen
32754a23-e3fc-47c8-9cec-005349967592
Megson, David, Focant, Jean Françios, Patterson, Donald G., Robson, Matthew, Lohan, Maeve C., Worsfold, Paul J., Comber, Sean, Kalin, Robert, Reiner, Eric and O'Sullivan, Gwen
(2015)
Can polychlorinated biphenyl (PCB) signatures and enantiomer fractions be used for source identification and to age date occupational exposure?
Environment International, 81, .
(doi:10.1016/j.envint.2015.04.006).
Abstract
Detailed polychlorinated biphenyl (PCB) signatures and chiral Enantiomer Fractions (EFs) of CB-95, CB-136 and CB-149 were measured for 30 workers at a transformer dismantling plant. This was undertaken to identify sources of exposure and investigate changes to the PCB signature and EFs over different exposure periods. Approximately 1.5g of serum was extracted and PCB signatures were created through analysis by comprehensive two-dimensional gas chromatography with time-of-flight mass spectrometry (GC×GC-TOFMS) and EFs calculated following analysis by gas chromatography with high resolution mass spectrometry (GC-HRMS). A total of 84 PCBs were identified in the serum samples with concentrations of the 7 indicator PCBs ranging from 11-350ngg-1 of serum (1.2-39μgg-1 lipid). The PCB signatures were interpreted using principal component analysis (PCA) which was able to distinguish workers with background or recent minimal exposure from those with prolonged occupational exposure. Occupationally exposed individuals had a similar PCB profile to Aroclor A1260. However, individuals with prolonged exposure had depleted proportions of several PCB congeners that are susceptible to metabolism (CB-95, CB-101 and CB-151) and elevated proportions of PCBs that are resistant to metabolism (CB-74, CB-153, CB-138 and CB-180). The results also identified a third group of workers with elevated proportions of CB-28, CB-60, CB-66, CB-74, CB-105 and CB-118 who appeared to have been exposed to an additional source of PCBs. The results show near complete removal of the CB-95 E2 enantiomer in some samples, indicating that bioselective metabolism or preferential excretion of one enantiomer occurs in humans. By considering PCB concentrations along with detailed congener specific signatures it was possible to identify different exposure sources, and gain an insight into both the magnitude and duration of exposure.
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More information
Accepted/In Press date: 14 April 2015
e-pub ahead of print date: 24 April 2015
Published date: 1 August 2015
Keywords:
Chemical fingerprinting, Chiral, Enantiomer fractions, GC×GC-TOFMS, Human exposure, PCB atropisomers, Polychlorinated biphenyls (PCBs)
Identifiers
Local EPrints ID: 413901
URI: http://eprints.soton.ac.uk/id/eprint/413901
ISSN: 0160-4120
PURE UUID: 047258fe-4fe5-4fee-8651-4e5418df515f
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Date deposited: 08 Sep 2017 16:31
Last modified: 06 Jun 2024 01:51
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Contributors
Author:
David Megson
Author:
Jean Françios Focant
Author:
Donald G. Patterson
Author:
Matthew Robson
Author:
Paul J. Worsfold
Author:
Sean Comber
Author:
Robert Kalin
Author:
Eric Reiner
Author:
Gwen O'Sullivan
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