There is limited information about both environmental and human perfluorinated compounds (PFCs) concentrations in the southern hemisphere, and for the first time, concentrations of these compounds are reported in maternal serum and cord blood of South African women. The majority of the participants were of African Black ethnicity, with a similar socioeconomic status. In maternal serum perfluorooctane sulfonate (PFOS) was found to be the most abundant PFC (1.6 ng mL ) and perfluorohexane sulfonate (PFHxS: 0.5 ng mL À1 ); however, in cord blood PFOA was the most abundant compound (1.3 ng mL
À1) followed by PFOS (0.7 ng mL
À1) and PFHxS (0.3 ng mL
À1). Linear PFOS constituted 58% of the sum of PFOS, comparable with a reported percentage from Australia. Differences in PFC concentrations between communities were found, with the highest concentrations in urban and semi-urban areas. The median maternal PFOS concentration was lower than has been reported in other studies, whereas the PFOA concentration was the same. This clearly indicates that the exposure pathway is different from the western world. Significant differences in housing quality were observed and the urban and sub-urban community had the highest living and housing standards. Possible exposure pathways could be different from those elucidated in the western world with the exception of the urban community in our study that showed higher living standards in general and easier access to modern consumer products.
Parabens are used extensively in personal care products; however, their estrogenic properties have raised concern over risks to human health. High levels of total parabens, mainly as conjugates, have been reported in human plasma/serum, with limited data on native parabens. Our objective was to assess and link plasma concentrations of native common parabens to self-reported use of personal care products in women from the general population. The information was obtained from an extensive questionnaire on diet and lifestyle previously answered by the women in the NOWAC study. Plasma samples from 332 individuals were extracted and cleaned up by automated solid phase extraction and analyzed by ultra high performance liquid chromatography time-of-flight mass spectrometry. Native methyl paraben dominated and was detected in 63% of the samples, with a median level of 9.4 ng/ml. Ethyl paraben (median < 3 ng/ml) and propyl paraben (median < 2 ng/ml) were detected in 22 and 29%, respectively. Butyl and benzyl parabens were not detected. For the first time, elevated levels of native parabens are reported in women from the general population. The concentrations were significantly associated with the use of skin lotions, indicating that frequent (daily or more) use maintain elevated concentrations despite the parabens short half-lives. These findings clearly emphasize the need to study potential health effects in the general population.
Recently, we reported that by converting olefinic fatty acids to their saturated vicinally 1,2-di-hydroxylated derivatives, abundant ions indicative for hydroxyl group locations are produced by negative electrospray ionization low-energy tandem mass spectrometry, allowing the assignment of the olefinic site in the native fatty acid. In this report the mechanisms whereby the characteristic ions are produced are investigated. The mono-hydroxylated fatty acid, 12-hydroxyoctadecanoic acid, served as a model for the more complex 12,13-dihydroxyoctadecanoic acid, and fragmentation mechanisms accounting for the most abundant product ions generated from their deprotonated molecules are proposed. In general, three different mechanisms are proposed to operate in the formation of the observed product ions: (i) step-wise charge-remote homolytic cleavages, (ii) step-wise charge-proximate homolytic cleavages, and (iii) concerted charge-directed rearrangement reactions involving bond formation(s) and heterolytic cleavages. Support for the proposed mechanisms was achieved by investigating the deuterium- and oxygen-18-labeled isotopomers of both compounds.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.