Amanda J. Jenkins scite author profile

A mainstay of strategies to prevent HIV-1 transmission is to use antiretroviral therapy (ART) for pre-exposure prophylaxis (PrEP). Critical to the design and interpretation of PrEP prevention trials is the ability to make accurate pharmacological measurements of ART drugs in human genital and colorectal mucosal tissues, the principal route of HIV transmission. Here, we evaluated two drugs that are preferentially used for PrEP: tenofovir (TFV) disoproxil fumarate (TDF) and emtricitabine (FTC). A single oral dose of TDF/FTC (Truvada) was administered to 15 healthy individuals. Over the next 14 days, TFV and FTC were measured in blood plasma and genital secretions using a sensitive assay (lower level of quantification, 0.1 ng/ml). The active intracellular phosphorylated metabolites of these drugs [TFV diphospate (TFV-DP) and FTC triphosphate (FTC-TP)] were measured in homogenates prepared from rectal, vaginal, and cervical tissues. TFV and FTC were detected in blood plasma 14 days after administration of a single dose. The area under the concentration-time curve from 24 hours to 14 days (AUC1–14d) for FTC in genital secretions was 27-fold greater than in blood plasma, whereas the AUC1–14d for TFV was only 2.5-fold greater in genital secretions than in blood plasma. In rectal tissue, TFV and TFV-DP concentrations were detectable for 14 days and were 100-fold higher than the concentrations in vaginal and cervical tissues. Vaginal and cervical tissue concentrations of FTC were 10- to 15-fold higher than in rectal tissue. Despite high concentrations of FTC in vaginal and cervical tissue, FTC-TP concentrations in all tissue types were detected for only 2 days after dose. The exposure to TFV, TFV-DP, FTC, and FTC-TP was wide ranging depending on the type of mucosal tissue. These results demonstrate the need for detailed pharmacological studies to improve the application of ART for PrEP to prevent transmission of HIV.

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Comparison of Heroin and Cocaine Concentrations in Saliva with Concentrations in Blood and Plasma

Jenkins

Oyler

Cone

1995

Journal of Analytical Toxicology

165

100

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Saliva is an alternate biological matrix for drug testing that has several advantages over more traditional fluids such as blood and urine. Collection is rapid, noninvasive, and relatively easy to obtain. Several reports have detailed the appearance of drugs of abuse in saliva, but few have compared the excretion profiles of drugs administered by different routes. In this study, subjects were administered three smoked and three intravenous doses of heroin in an ascending dose design. Blood and saliva were collected periodically after drug administration and analyzed by gas chromatography-mass spectrometry (GC-MS) for heroin, 6-acetylmorphine, and morphine. In a second study, subjects were administered a single, smoked dose of 40 mg cocaine base and an intravenous dose of 44.8 mg cocaine HO on separate occasions. Plasma and saliva were collected and analyzed by CC-MS for cocaine, anhydroecgonine methyl ester (AEME), and seven additional metabolites. Heroin and 6-acetylmorphine were detected in the first saliva sample collected (2 min) following drug administration by both routes. Peak heroin concentrations were achieved quickly, between 2 and 5 min after intravenous administration and at 2 min after smoke heroin. Peak heroin concentrations in saliva after smoking heroin base ranged from 3534 (2.6 mg) to 20,580 ng/mL (5.2 mg), and after intravenous administration, concentrations ranged from 6 (10 mg heroin HCl to 30 ng/mL (12 mg heroin HCl. Saliva concentrations of heroin declined rapidly after intravenous administration, reaching the limit of sensitivity of the assay (1 ng/mL) by 60 min. Heroin concentrations in saliva after smoking declined slowly; detection times ranged from 4 to 24 h. Cocaine was the major analyte detected in saliva and plasma after smoked and intravenous administration. Peak saliva cocaine concentrations after intravenous administration ranged from 428 to 1927 ng/mL (N = 7); after smoking, they ranged from 15,852 to 504,880 ng/mL (N = 7). Peak plasma cocaine concentrations after intravenous administration ranged from 122 to 442 ng/mL A = 7), and after smoking, concentrations ranged from 46 to 291 ng/mL A = 7). The thermal degradation product of cocaine, AEME, was detected in saliva but not in plasma after smoking. Peak saliva AEME concentrations were achieved at 2 min and ranged from 558 to 4374 ng/mL (N = 7). These are the first reported observations of heroin and metabolites in saliva following heroin smoking and of AEME in saliva after smoking cocaine base. The presence of AEME in saliva may be useful as a marker of the smoked route following cocaine administration.

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Recommendations for Toxicological Investigations of Drug-Facilitated Sexual Assaults

et al. 1999

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The recent increase in reports of drug-facilitated sexual assaults has caused alarm in the general public and prompted forensic toxicologists from across North America to address the toxicological issues surrounding this matter. The authors have developed recommendations and guidelines to inform law enforcement, medical, and scientific personnel of the requirements for performing successful toxicological examinations in cases of drug-facilitated rape.

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Sweat Testing for Heroin, Cocaine, and Metabolites

et al. 1994

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Although a variety of drugs have been detected in sweat, little information is available on the characteristics of drug excretion in sweat under controlled-dosing conditions. A series of clinical studies were designed to determine the identity, concentration, time course, dose dependency, and variability of drug and metabolite excretion in sweat following administration of single doses of cocaine and heroin to human subjects. Sweat was collected by means of a sweat patch that could be worn for a period of several days to several weeks at a time, resulting in accumulation of drug in the patch. Sweat patches were removed at specified times and frozen until analyzed by gas chromatography--mass spectrometry. Cocaine and heroin were the major analytes excreted in sweat following their administration. Smaller amounts of cocaine metabolites were also detected following cocaine administration. 6-Acetylmorphine appeared rapidly after heroin administration and continued to increase while heroin content decreased, suggesting that heroin was undergoing hydrolysis in the sweat patch. Cocaine appeared in sweat within 1-2 hours and peaked within 24 hours in an apparent dose-dependent manner. Analysis of duplicate adjacent patches from individual subjects who had been administered cocaine provided similar quantitative results, suggesting that intrasubject variability was relatively low, whereas intersubject variability was high. These observations regarding the excretion of cocaine and heroin analytes in sweat have important forensic implications to other fields such as hair analysis. Sweat excretion could be an important mechanism by which drugs enter hair. These data also suggest that the sweat patch could serve as a useful monitoring device in surveillance of individuals in treatment and probation programs.

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Amanda J. Jenkins

Penetration of Tenofovir and Emtricitabine in Mucosal Tissues: Implications for Prevention of HIV-1 Transmission

Comparison of Heroin and Cocaine Concentrations in Saliva with Concentrations in Blood and Plasma

Recommendations for Toxicological Investigations of Drug-Facilitated Sexual Assaults

Sweat Testing for Heroin, Cocaine, and Metabolites

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