Human Donor Liver and Serum Concentrations of Perfluorooctanesulfonate and Other Perfluorochemicals

Olsen, Geary W.; Hansen, Kristen J.; Stevenson, Lisa A.; Burris, Jean M.; Mandel, Jeffrey H.

doi:10.1021/es020955c

Cited by 218 publications

(153 citation statements)

References 12 publications

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“…The findings from this analysis of serum PFOS concentrations in 645 adult blood donors are consistent with previous, albeit sparse, human data (3M Company 2003; Hansen et al 2001;Olsen et al 2003b Hansen et al 2001). These findings were also comparable to a limited number of serum samples from Europe that were determined to have mean serum PFOS concentrations at 17 ppb in five pooled samples from a blood bank in Belgium, 53 ppb in six pooled samples from the Netherlands, and 37 ppb from six pooled blood samples from Germany (3M Company, 2003).…”

Section: Discussionsupporting

confidence: 90%

“…PFOS has been detected at low parts per billion (nanogram per milliliter) concentrations in the general population (3M Company 2003;Hansen et al 2001;Olsen et al 2003b), although the scope and sample size of these investigations have been limited. Serum PFOS concentrations among production employees working in POSF-related processes have averaged between 0.5 and 2 ppm depending on work activity (range < 0.1-12 ppm) (Olsen et al 1999(Olsen et al , 2003a(Olsen et al , 2003c.…”

Section: Research | Articlementioning

confidence: 99%

See 1 more Smart Citation

Perfluorooctanesulfonate and other fluorochemicals in the serum of American Red Cross adult blood donors.

Olsen

Church

Miller

et al. 2003

Environ Health Perspect

369

309

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Perfluorooctanesulfonyl fluoride-based products have included surfactants, paper and packaging treatments, and surface protectants (e.g., for carpet, upholstery, textile). Depending on the specific functional derivatization or degree of polymerization, such products may degrade or metabolize, to an undetermined degree, to perfluorooctanesulfonate (PFOS), a stable and persistent end product that has the potential to bioaccumulate. In this investigation, a total of 645 adult donor serum samples from six American Red Cross blood collection centers were analyzed for PFOS and six other fluorochemicals using HPLC-electrospray tandem mass spectrometry. PFOS concentrations ranged from the lower limit of quantitation

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Section: Discussionsupporting

confidence: 90%

Section: Research | Articlementioning

confidence: 99%

Perfluorooctanesulfonate and other fluorochemicals in the serum of American Red Cross adult blood donors.

Olsen

Church

Miller

et al. 2003

Environ Health Perspect

369

309

View full text Add to dashboard Cite

show abstract

“…They reported that PFOS concentrations in blood were lower than those in liver. [18][19][20] Already in 1979 studies in rats showed that PFOS is well absorbed orally and accumulates primarily in the liver and, to a lesser extent, in the serum or plasma. [21] In contrast, some studies resulted in highest values in blood and lower values in liver.…”

Section: Analytical Challengesmentioning

confidence: 99%

“…[60] As expected, the PFOS burden in human liver was higher than in human blood. For PFOS the mean liver to serum ratio was 1.3 : 1 calculated from PFC analyses of liver and serum samples of 23 male and female US donors, [20] whereas the liver to serum ratio was 3.5 : 1 for 12 Spanish human tissue samples. [61] PFC pattern in human tissues PFOS, PFOA, PFHxS and PFOSA were detected most frequently in serum samples of the US population.…”

Section: Levels and Trends In Humansmentioning

confidence: 99%

Trends of polyfluoroalkyl compounds in marine biota and in humans

Sturm

Ahrens

2010

Environ. Chem.

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Environmental context. Polyfluoroalkyl compounds are used in a variety of industrial and consumer applications, including polymer production and for surface treatment of textiles and paper. Research over the last 10 years has shown that these compounds are ubiquitous environmental contaminants -they are extremely persistent, show toxic effects and accumulate in the food chain. We evaluate global, temporal and spatial trends of these important emerging contaminants.Abstract. This review gives an overview of existing knowledge of polyfluoroalkyl compounds (PFCs) in humans and in marine biota. Temporal trends and spatial distribution of PFCs were globally compared in humans, marine mammals, seabirds and fish. In general, PFC concentrations in the environment have increased significantly from the beginning of the production up to the 1990s. After the phase-out of perfluorooctane sulfonyl fluoride (POSF) production starting in 2000, PFC concentrations in humans generally decreased. In marine biota no clear temporal trends were observed. The temporal trends depended on the species, their trophic levels and the geographical locations. PFC patterns in humans and in marine wildlife species were compared regarding perfluorooctane sulfonate (PFOS), perfluorooctanoate (PFOA), their shorter and longer chain homologues (C 4 -C 15 ) and precursor compounds. Finally knowledge gaps were identified and recommendations for future work were presented.

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“…In recent years, PFCs especially perfluorooctanoic acid (PFOA) and perfluorooctanyl sulfonate (PFOS) have received much attention because they were ubiquitously detected in various environmental media [3][4][5][6][7][8][9][10][11] and in the body of wildlife [12,13] and human beings [14][15][16][17]. Though their sources, fate and transport in the environment are not well understood, it has been known that they are directly released into the environment or indirectly formed [18].…”

Section: Introductionmentioning

confidence: 99%

Ferric ion mediated photochemical decomposition of perfluorooctanoic acid (PFOA) by 254nm UV light

Wang

Zhang

Pan

et al. 2008

Journal of Hazardous Materials

150

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a b s t r a c tThe great enhancement of ferric ion on the photochemical decomposition of environmentally persistent perfluorooctanoic acid (PFOA) under 254 nm UV light was reported. In the presence of 10 M ferric ion, 47.3% of initial PFOA (48 M) was decomposed and the defluorination ratio reached 15.4% within 4 h reaction time. While the degradation and defluorination ratio greatly increased to 80.2% and 47.8%, respectively, when ferric ion concentration increased to 80 M, and the corresponding half-life was shortened to 103 min. Though the decomposition rate was significantly lowered under nitrogen atmosphere, PFOA was efficiently decomposed too. Other metal ions like Cu 2+ and Zn 2+ also slightly improved the photochemical decomposition of PFOA under irradiation of 254 nm UV light. Besides fluoride ion, other intermediates during PFOA decomposition including formic acid and five shorter-chain perfluorinated carboxylic acids (PFCAs) with C7, C6, C5, C4 and C3, respectively, were identified and quantified by IC or LC/MS. The mixture of PFOA and ferric ion had strong absorption around 280 nm. It is proposed that PFOA coordinates with ferric ion to form a complex, and its excitation by 254 nm UV light leads to the decomposition of PFOA in a stepwise way.

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Human Donor Liver and Serum Concentrations of Perfluorooctanesulfonate and Other Perfluorochemicals

Cited by 218 publications

References 12 publications

Perfluorooctanesulfonate and other fluorochemicals in the serum of American Red Cross adult blood donors.

Perfluorooctanesulfonate and other fluorochemicals in the serum of American Red Cross adult blood donors.

Trends of polyfluoroalkyl compounds in marine biota and in humans

Ferric ion mediated photochemical decomposition of perfluorooctanoic acid (PFOA) by 254nm UV light

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