Assessment of non-occupational exposure to polycyclic aromatic hydrocarbons through personal air sampling and urinary biomonitoring

Li, Zheng; Mulholland, James A.; Romanoff, Lovisa C.; Pittman, Erin N.; Trinidad, Debra A.; Lewin, Michael; Sjödin, Andreas

doi:10.1039/c000689k

Cited by 78 publications

(56 citation statements)

References 62 publications

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“…3 Furthermore, inhalation is the dominant exposure route for small PAHs such as NAP in general population. 39,40 For most FLU, PHE and PYR metabolites, the amount of OH-PAHs excreted within 24 h after the dietary exposure was correlated or marginally correlated with the amount of ingested barbecued chicken, and thus, correlated with the amount of ingested PAHs. This is encouraging, especially considering the small sample size (9 participants or N=9).…”

Section: Excreted Metabolite Amounts In Comparison To Ingested Pahsmentioning

confidence: 99%

“…Similar 1-NAP-specific spikes have also been observed in several previous studies on non-occupationally exposed reference populations. 34,40 Considering the wide usage of the carbaryl pesticides and its dominant contribution to urinary 1-NAP when exposed, we recommend not using 1-NAP, and relying on 2-NAP instead as the biomarker to naphthalene exposure in future biomonitoring studies.…”

Section: Urinary 1-nap: Pesticide or Pah Biomarkermentioning

confidence: 99%

“…The urinary biomarkers reflect total exposure from all sources, and inhalation can be the dominant exposure route for NAP in general population. 39,40 In addition, naphthalene analysis can be challenging and is often omitted in food analyses. 41 In this study, the food was analyzed by a commercial lab without using isotopically labeled internal standards and we did not have control over the data quality.…”

Section: Excreted Metabolite Amounts In Comparison To Ingested Pahsmentioning

confidence: 99%

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Excretion Profiles and Half-Lives of Ten Urinary Polycyclic Aromatic Hydrocarbon Metabolites after Dietary Exposure

Romanoff

Bartell

et al. 2012

Chem. Res. Toxicol.

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184

130

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Human exposure to polycyclic aromatic hydrocarbons (PAHs) can be assessed by biomonitoring of their urinary mono-hydroxylated metabolites (OH-PAHs). Limited information exists on the human pharmacokinetics of OH-PAHs. This study aimed to investigate the excretion half-life of 1-hydroxypyrene (1-PYR), the most used biomarker for PAH exposure, and 9 other OH-PAHs following a dietary exposure in 9 non-smoking volunteers with no occupational exposure to PAHs. Each person avoided food with known high PAH-content during the study period, except for a high PAH-containing lunch (barbecued chicken) on the first day. Individual urine samples (n = 217) were collected from 15 hours before to 60 hours following the dietary exposure. Levels of all OH-PAHs in all subjects increased rapidly by 9-141 fold after the exposure, followed by a decrease consistent with first order kinetics, and returned to background levels 24-48 hours after the exposure. The average time to reach maximal concentration ranged from 3.1 h (1-naphthol) to 5.5 h (1-PYR). Creatinine-adjusted urine concentrations for each metabolite were analyzed using a non-linear mixed effects model including a term to estimate background exposure. The background-adjusted half-life estimate was 3.9 h for 1-PYR and ranged 2.5-6.1 h for the other 9 OH-PAHs, which in general, were shorter than those previously reported. The maximum concentrations after the barbecued chicken consumption were comparable to the levels found in reported occupational settings with known high PAH exposures. It is essential to consider the relatively short half-life, the timing of samples relative to exposures, and the effect of diet when conducting PAH exposure biomonitoring studies.

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Section: Excreted Metabolite Amounts In Comparison To Ingested Pahsmentioning

confidence: 99%

Section: Urinary 1-nap: Pesticide or Pah Biomarkermentioning

confidence: 99%

Section: Excreted Metabolite Amounts In Comparison To Ingested Pahsmentioning

confidence: 99%

See 1 more Smart Citation

Excretion Profiles and Half-Lives of Ten Urinary Polycyclic Aromatic Hydrocarbon Metabolites after Dietary Exposure

Romanoff

Bartell

et al. 2012

Chem. Res. Toxicol.

Self Cite

184

130

View full text Add to dashboard Cite

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“…Inhalation has been thought to be a major route of human exposure to PAH because of the presence of high level PAHs in the atmosphere (ATSDR 1995;Li et al 2010). Atmospheric PAHs can be present in particulate matters or gas phase, depending on the different vapor pressure of PAH congeners (Chang et al 2006;Park et al 2002).…”

Section: Introductionmentioning

confidence: 99%

Sources and potential health risk of gas phase PAHs in Hexi Corridor, Northwest China

Mao

Ding

et al. 2015

Environ Sci Pollut Res

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Gas phase polycyclic aromatic hydrocarbons (PAHs) in Hexi Corridor, Northwest China were determined during heating and non-heating seasons, respectively, using passive air samplers. Polyurethane foam (PUF) disks were chosen as the sampling medium. Fifteen PAHs out of the 16 PAHs classified by the United States Environmental Protection Agency (U.S. EPA) were detected in this field sampling investigation. The atmospheric levels of sampled PAHs were higher at urban sites than that at rural sites among 14 sampling sites and increased during heating season. The highest concentration (11.34 ng m(-3)) was observed in Lanzhou during the heating season, the capital and largest industrial city of Gansu Province. PAH contamination in air was dominated by three aromatic ring congeners. Possible sources of PAHs were apportioned using PAH species ratios and the principle component analysis (PCA) combined with a multiple linear regression (MLR) method. Fossil fuel consumption was identified to be the predominant source of PAHs over Hexi Corridor, accounting for 43 % of the concentration of total (15) PAHs. Backward and forward trajectory and cluster analysis were also carried out to identify potential origins of PAHs monitored at several urban and rural sites. Lung cancer risk of local residents to gas phase PAHs via inhalation exposure throughout the province was found to be around a critical value of the lung cancer risk level at 10(-6) recommended by the U.S. EPA risk assessment guideline.

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“…In most cases, PAHs can be hydroxylated by CYP450-oxidases, which is a key step in the activation process to produce the polar biochemically reactive electrophilic species (ultimate carcinogenic metabolites) capable of interacting with cellular macromolecules, particularly nucleic acids and proteins (Zhou et al, 2003). Most recently, hydroxylated PAHs (HO-PAHs) have emerged and are causing increasing concern due to their detection in human hair (Schummer et al, 2009), urine (Campo et al, 2010Li et al, 2010c), and expired air samples (Li et al, 2010c); these agents have even been found in the bile of deep-sea fish (Escartin and Porte, 1999). Previous studies have shown that certain HO-PAHs can affect hormone homeostasis, as they act as potent ligands for binding to the aryl hydrocarbon receptor (AhR) and even interact with DNA (Wang et al, 2009a;Wenger et al, 2009;Ohura et al, 2010;Wei et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

Noncovalent interactions between hydroxylated polycyclic aromatic hydrocarbon and DNA: Molecular docking and QSAR study

Liu

et al. 2011

Environmental Toxicology and Pharmacology

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Assessment of non-occupational exposure to polycyclic aromatic hydrocarbons through personal air sampling and urinary biomonitoring

Cited by 78 publications

References 62 publications

Excretion Profiles and Half-Lives of Ten Urinary Polycyclic Aromatic Hydrocarbon Metabolites after Dietary Exposure

Excretion Profiles and Half-Lives of Ten Urinary Polycyclic Aromatic Hydrocarbon Metabolites after Dietary Exposure

Sources and potential health risk of gas phase PAHs in Hexi Corridor, Northwest China

Noncovalent interactions between hydroxylated polycyclic aromatic hydrocarbon and DNA: Molecular docking and QSAR study

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