Introduction
The tobacco-specific nitrosamines (TSNAs) are an important group of carcinogens found in tobacco and tobacco smoke. To describe and characterize the levels of TSNAs in the Population Assessment of Tobacco and Health (PATH) Study Wave 1 (2013–2014), we present four biomarkers of TSNA exposure: N′-nitrosonornicotine, N′-nitrosoanabasine, N′-nitrosoanatabine, and 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol (NNAL) which is the primary urinary metabolite of 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone.
Methods
We measured total TSNAs in 11 522 adults who provided urine using automated solid-phase extraction coupled to isotope dilution liquid chromatography–tandem mass spectrometry. After exclusions in this current analysis, we selected 11 004 NNAL results, 10 753 N′-nitrosonornicotine results, 10 919 N′-nitrosoanatabine results, and 10 996 N′-nitrosoanabasine results for data analysis. Geometric means and correlations were calculated using SAS and SUDAAN.
Results
TSNA concentrations were associated with choice of tobacco product and frequency of use. Among established, every day, exclusive tobacco product users, the geometric mean urinary NNAL concentration was highest for smokeless tobacco users (993.3; 95% confidence interval [CI: 839.2, 1147.3] ng/g creatinine), followed by all types of combustible tobacco product users (285.4; 95% CI: [267.9, 303.0] ng/g creatinine), poly tobacco users (278.6; 95% CI: [254.9, 302.2] ng/g creatinine), and e-cigarette product users (6.3; 95% CI: [4.7, 7.9] ng/g creatinine). TSNA concentrations were higher in every day users than in intermittent users for all the tobacco product groups. Among single product users, exposure to TSNAs differed by sex, age, race/ethnicity, and education. Urinary TSNAs and nicotine metabolite biomarkers were also highly correlated.
Conclusions
We have provided PATH Study estimates of TSNA exposure among US adult users of a variety of tobacco products. These data can inform future tobacco product and human exposure evaluations and related regulatory activities.
In
2019, the Centers for Disease Control and Prevention responded
to an outbreak of e-cigarette, or vaping, product use-associated lung
injury (EVALI). Bronchoalveolar-lavage (BAL) fluid from EVALI patients
was available for analysis to investigate a range of potential toxicants
that might be present at the presumed site of lung injury. Our laboratory
developed and validated a novel method to measure cannabinoids and
their metabolites in BAL fluid to aid in the investigation of the
toxicants that might be the cause of EVALI. In this paper, we describe
a sensitive liquid chromatography-tandem mass spectrometry method
to measure the following six cannabinoids: Δ
9
-tetrahydrocannabinol
(THC), THC metabolites 11-nor-9-carboxy-THC and 11-hydroxy-THC, cannabinol,
cannabidiol (CBD), and CBD metabolite 7-nor-7-carboxycannabidiol.
Cannabinoids were extracted from BAL fluid using solid-phase extraction.
Accuracy, precision, stability, and limits of detection were determined
from replicate analyses of spiked BAL pools. The lower limits of detection
ranged from 0.019 to 0.153 ng/mL for a sample volume of 150 μL.
Overall accuracy ranged from 71.0 to 100.8%. Within-run imprecision
(measured by the coefficient of variation) was below 8%, and between-run
imprecision was below 21% for all analytes and concentrations tested.
The method was applied to samples from 59 EVALI case patients. We
identified THC, CBD, or their metabolites in 76% of EVALI patient
samples. These findings support previous evidence that THC-containing
products played a major role in the EVALI outbreak and help to inform
public health recommendations.
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