We previously showed that chronic cocaine use by active illicit users produced a longer plasma half-life than expected based on acute low-dose cocaine studies. Here we report urinary excretion patterns of cocaine metabolites as benzoylecgonine (BE) equivalents from 18 of the same individuals, housed for up to 14 days on a closed research unit. In addition, we evaluated whether creatinine normalization of BE equivalents increased mean detection time and reduced mean within-subject variability. All urine voids (N = 953) were individually assayed; BE equivalents were determined semi-quantitatively by FPIA. Compared to concentration in first void after admission, BE equivalents decreased to approximately 33%, 8%, and 4% at 24, 48, and 72 h, respectively. Mean +/- SD (range) time to first negative specimen (BE equivalents < 300 ng/mL) was 43.6 +/- 17.1 (16-66) h. BE equivalents fluctuated considerably across successive specimens; 69% of participants tested positive at least once after testing negative, and the mean time to last positive specimen was 57.5 +/- 31.6 (11-147) h after the first specimen. Thus, mean cocaine metabolite detection times were consistent with prolonged elimination, with 63% of participants testing positive longer than the expected 48-h window of detection after admission to the unit. Mean time to last positive after last use of cocaine, known by self-report only, was approximately 81 +/- 34 (34-162) h. Creatinine normalization, with the cut-off of 300 ng BE equivalents/mg creatinine, increased detection time: mean time to first negative specimen was 54.8 +/- 20.7 (20-100) h, and mean time to last positive specimen was 88.4 +/- 51.0 (35.6-235) h. Compared with the concentration in the first void after admission, BE equivalents/creatinine decreased to approximately 56%, 6%, and 5% at 24, 48, and 72 h. However, creatinine normalization did not reduce the fluctuation of BE equivalents across successive specimens. Thus, creatinine normalized values may be useful when the goal is to maximize the probability or duration of cocaine metabolite detection, but may be less useful in determining whether an individual has used cocaine since a previous specimen collection.
Nicotine is rapidly and extensively metabolized in humans and negatively impacts the developing fetus. The concentrations of nicotine, cotinine, trans-3'-hydroxycotinine (hydroxycotinine), and norcotinine in pregnant smokers' oral fluid were evaluated to determine usefulness as biomarkers of cigarette smoking. Sixteen participants were divided into two groups: eight light smokers (LS) who smoked < or =10 cigarettes/day and eight heavy smokers (HS) who smoked > or =20 cigarettes/day. Oral fluid specimens (n=415) were collected throughout pregnancy and analyzed with solid-phase extraction followed by gas chromatography-mass spectrometry-electron impact selected ion monitoring. Median concentrations of nicotine, cotinine, and hydroxycotinine in oral fluid of LS ranged from 241.1 to 622.0, 80.6 to 387.5, and 14.4 to 117.7 ng/mL and for HS 146.5-1372.2, 66.0-245.8, and 38.3-184.4 ng/mL, respectively. Salivary cotinine and hydroxycotinine concentrations were significantly correlated in LS (r = 0.55, p < 0.01) and HS (r = 0.74, p < 0.01). Ratios of hydroxycotinine/cotinine in oral fluid from pregnant women averaged 0.30 +/- 0.18 (range, 0.07-1.05) for LS and 0.68 +/- 0.25 (range, 0.29-1.83) for HS. Based on these preliminary data, the best ratio to differentiate light from heavy pregnant smokers was 0.41. Salivary hydroxycotinine and cotinine concentrations are both good biomarkers of cigarette smoking. Determining the hydroxycotinine/cotinine ratio may differentiate light from heavy tobacco use and help predict increased fetal tobacco exposure.
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