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1.
Environ Toxicol Chem ; 40(8): 2085-2097, 2021 08.
Article in English | MEDLINE | ID: mdl-34291842

ABSTRACT

Polychlorinated biphenyl exposure-response relationships for ecologically relevant endpoints in fish vary greatly whether based on lowest-effect thresholds (Berninger and Tillitt 2019) or all-response data (sensitivity analyses), which precludes use of a single fitted model per endpoint to predict risk or injury to mixed fish populations. PCB = polychlorinated biphenyl.


Subject(s)
Polychlorinated Biphenyls , Animals , Fishes , Polychlorinated Biphenyls/analysis , Polychlorinated Biphenyls/toxicity , Reproduction
2.
Mar Pollut Bull ; 154: 111091, 2020 May.
Article in English | MEDLINE | ID: mdl-32319920

ABSTRACT

Oil weathering is often described subjectively after a spill. Adjectives like "moderate" and "severe" help define the extent of oil loss but fail to communicate quantitatively and reproducibly the degree of weathering. The use of subjective weathering terms often leads to misperceptions about persistence and toxicity of oil residues in the environment. The weathering of MC252 oil from the Deepwater Horizon spill started immediately after release during the 1500-m ascent to the sea surface and continued as it was transported on the surface and reached the shoreline. Weathering processes included evaporation, dissolution, photo-degradation, and biodegradation, among others. With extensive sample collection and detailed chemistry and source fingerprinting analyses, the Deepwater Horizon data provide a unique opportunity to evaluate weathering processes semi-quantitatively. An objective method of defining the degree of oil weathering is developed based on the detailed chemical results for over 700 MC252 oil samples from the environment.


Subject(s)
Petroleum Pollution/analysis , Petroleum/analysis , Water Pollutants, Chemical/analysis , Environmental Monitoring , Weather
3.
Sci Total Environ ; 461-462: 99-107, 2013 Sep 01.
Article in English | MEDLINE | ID: mdl-23712120

ABSTRACT

In human exposure studies involving Polychlorinated Biphenyls (PCBs), it is useful to establish when an individual was potentially exposed. Age dating PCB exposure is complex but assessments can be made because different PCB congeners have different residence times in the human body. The less chlorinated congeners generally tend to have shorter residence times because they are biotransformed and eliminated faster than more chlorinated congeners. Therefore, the presence of high proportions of less chlorinated congeners is often indicative of recent exposure. The 2003-04 National Health and Nutrition Examination Survey (NHANES) dataset contains results for the concentration of 37 PCBs in a sub-sample of the US population. Multivariate statistical analysis of the NHANES data showed that less chlorinated congeners are not always biotransformed faster than higher chlorinated compounds. For example, PCB 28 (a tri-chlorobiphenyl) appears to be more resistant to biotransformation than PCB 101 and 110 (penta-chlorobiphenyls). Using statistical analysis of the NHANES data in conjunction with previously published studies on PCB persistence in humans, it was possible to identify the structural relationships that determine if a PCB is likely to be from a recent exposure (termed 'episodic') or from steady state exposure. Congeners with chlorine atoms in the 2,5- and 2,3,6-positions appear to be more susceptible to biotransformation whereas congeners with chlorine bonds in the 2,3,4- 2,4,5- 3,4,5- and 2,3,4,5-positions appear to be more persistent. This work shows that future investigations to date PCB exposure would benefit from the analysis of a wide range of congeners, including the selection of key congeners based not only on the degree of chlorination but also on the positions of the chlorine atoms on the biphenyl.


Subject(s)
Biotransformation/physiology , Environmental Exposure/analysis , Polychlorinated Biphenyls/chemistry , Polychlorinated Biphenyls/pharmacokinetics , Adolescent , Adult , Age Factors , Aged , Aged, 80 and over , Chlorine/chemistry , Cluster Analysis , Humans , Limit of Detection , Middle Aged , Multivariate Analysis , Nutrition Surveys , Principal Component Analysis , Sensitivity and Specificity
4.
J Expo Sci Environ Epidemiol ; 18(4): 369-80, 2008 Jul.
Article in English | MEDLINE | ID: mdl-17912254

ABSTRACT

In the present study, an aryl hydrocarbon receptor (AHR)-driven reporter gene bioassay was used to measure the activity, measured as an induction equivalent (IEQ) as compared to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), or IEQ concentration in human blood samples from 10 volunteers under different dietary regimens. Blood concentrations of polychlorinated dibenzo-p-dioxins/furans (PCDD/Fs) and polychlorinated biphenyls (PCBs), as determined by analytical chemistry (HR-GC/MS), and expressed as toxic equivalents (TEQs) with the use of TCDD equivalency factors (TEFs), were within a range that has been reported in the general US population, ranging from 0.022 to 0.119 ppt (whole blood basis). However, the human blood IEQ measured directly via bioassay ranged from 13.4 to 218 ppt (whole blood basis). These order of magnitude greater IEQs compared to the TEQs for dioxins, furans, and certain PCBs suggests that human blood contains a relatively high level of AHR agonists able to activate the CYP1A1 dioxin response element (DRE)-linked reporter gene bioassay and that this AHR activity is not accounted for by PCDDs/Fs and dioxin-like PCBs based on standard HR-GC/MS and TEF analysis. When study participants switched from a "baseline" to a high-vegetable diet, increases in bioassay IEQ were observed that were statistically significant (P<0.05). In addition, IEQ activity was elevated above levels observed following dietary intervention in two subjects given indole-3-carbinol (I3C) supplements. We conclude that a substantial portion of the IEQ activity occurred as a result of the increased intake of natural AHR agonists (NAHRAs) present in many fruits, vegetables. and herbs. Our findings also suggest that dietary NAHRAs constitute a substantial daily dietary intake of AHR-active compounds, and these NAHRAs could influence AHR status in humans and play a role in a basal level of AHR activation.


Subject(s)
Benzofurans/blood , Polychlorinated Biphenyls/blood , Polychlorinated Dibenzodioxins/analogs & derivatives , Polychlorinated Dibenzodioxins/blood , Receptors, Aryl Hydrocarbon/blood , Adult , Biological Assay/methods , Cytochrome P-450 CYP1A1 , Dibenzofurans, Polychlorinated , Diet/methods , Female , Humans , Indoles/administration & dosage , Ligands , Lipids/blood , Male , Receptors, Aryl Hydrocarbon/agonists , Receptors, Aryl Hydrocarbon/genetics , Vegetables
5.
Environ Health Perspect ; 111(4): 623-30, 2003 Apr.
Article in English | MEDLINE | ID: mdl-12676626

ABSTRACT

We conducted a pooled analysis to investigate the relationship between exposure to elemental mercury in air and resulting urinary mercury levels, specifically at lower air levels relevant for environmental exposures and public health goals (i.e., < 50 microg/m3 down to 1.0 microg/m3). Ten studies reporting paired air and urine mercury data (149 samples total) met criteria for data quality and sufficiency. The log-transformed data set showed a strong correlation between mercury in air and in urine (r = 0.774), although the relationship was best fit by a series of parallel lines with different intercepts for each study R2 = 0.807). Predicted ratios of air to urine mercury levels at 50 microg/m3 air concentration ranged from 1:1 to 1:3, based on the regression line for the studies. Toward the lower end of the data set (i.e., 10 microg/m3), predicted urinary mercury levels encompassed two distinct ranges: values on the order of 20 microg/L and 30-60 microg/L. Extrapolation to 1 microg/m3 resulted in predicted urinary levels of 4-5 and 6-13 microg/L. Higher predicted levels were associated with use of static area air samplers by some studies rather than more accurate personal air samplers. Urinary mercury predictions based primarily on personal air samplers at 1 and 10 microg/m3 are consistent with reported mean (4 microg/L) and upper-bound (20 microg/L) background levels, respectively. Thus, although mercury levels in air and urine are correlated below 50 microg/m3, the impact of airborne mercury levels below 10 microg/m3 is likely to be indistinguishable from background urinary mercury levels.


Subject(s)
Environmental Pollutants/urine , Inhalation Exposure , Mercury/urine , Models, Theoretical , Biomarkers , Forecasting , Humans , Volatilization
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