Simultaneous quantification of tobacco alkaloids and major phase I metabolites by LC-MS/MS in human tissue.

INTRODUCTION: Insurance agencies might request laboratories to differentiate whether a deceased has been a smoker or not to decide about refunding of his nonsmoker rate. In this context, the question on a solid proof of tobacco alkaloids and major metabolites in tissues came up. Currently, an appropriate assay is still lacking to analyze tissue distribution in smokers or nonsmokers. Nicotine (NIC), nornicotine (NNIC), anatabine (ATB), anabasine (ABS), and myosmine (MYO) are naturally occurring alkaloids of the tobacco plant; most important phase I metabolites of NIC are cotinine (COT), norcotinine (NCOT), trans-3'-hydroxycotinine (HCOT), nicotine-N'-oxide (NNO), and cotinine-N-oxide (CNO). An analytical assay for their determination was developed and applied to five randomly selected autopsy cases. METHODS: Homogenates using 500 mg aliquots of tissue samples were analyzed by liquid chromatography/tandem mass spectrometry following solid phase extraction. The method was validated according to current international guidelines. RESULTS: NIC, COT, NCOT, ABS, ATB, and HCOT could be detected in all tissues under investigation. Highest NIC concentrations were observed in the lungs, whereas highest COT concentrations have been found in the liver. MYO was not detectable in any of the tissues under investigation. CONCLUSIONS: The assay is able to adequately separate isobaric analyte pairs such as NIC/ABS/NCOT and HCOT/CNO thus being suitable for the determination of tobacco alkaloids and their phase I metabolites from tissue. More autopsy cases as well as corresponding body fluids and hair samples will be investigated to differentiate smokers from nonsmokers.

[Phentermine--a "weighty" or a dangerous substance?]. / Phentermin--ein "gewichtiger" oder gefährlicher Arzneistoff?

According to international surveys, the appetite suppressant phentermine has frequently been seized although its approval has been withdrawn in Germany. Phentermine is an isomer of methamphetamine though is not optically active such as e. g. amphetamine. The drug acts as a potent substrate at the norepinephrine transporter simultaneously promoting its release; it has a weaker activity at the dopamine transporter whereas its activity towards the serotonin transporter is negligible. Overall, its pharmacological action is comparable to that of amphetamine albeit less strong. Due to its declining effect with time and its addiction potential it has been recommended that phentermine should be used for a few weeks only. Phentermine hydrochloride is a readily soluble salt; absorption of the resinate compound is considerably slower. The drug is not extensively biotransformed; p- and N-hydroxyphentermine are the primary metabolites also being excreted as glucuronide conjugates. Gas chromatographic techniques to identify and to quantify phentermine in biological specimens are applicable following derivatization; however, liquid chromatography coupled to mass spectrometry is currently preferred for analysis of urine, serum or hair. Short-term clinical studies having been performed in the 80s and 90s revealed no serious harmful side effects. However, there are case reports proposing that phentermine usage might be associated with severe health risks due to hypertension, vasoconstriction and vasculopathy; in some individuals, mental illness had been observed. Apart from the legal consequences following purchase of drugs that have been withdrawn its user will simultaneously run serious and unpredictable health risks.

Fentanyl pharmacokinetics is not dependent on hepatic uptake by organic anion-transporting polypeptide 1B1 in human beings.

A recent study investigating the pharmacokinetics of fentanyl in Sprague-Dawley rats suggested fentanyl to be a substrate of rat organic anion-transporting polypeptide Oatp. In human beings, the most important OATP for the pharmacokinetics of many drugs is OATP1B1. Therefore, genetic variants of OATP1B1 (SLCO1B1) might modulate fentanyl pharmacokinetics and efficacy in human beings. Sixteen healthy male and female volunteers, homozygous for SLCO1B1*1a (genetic wild-type) (n = 11) or *15 (deficient haplotype carrying the single-nucleotide polymorphisms rs2306283 and rs4149056 and exhibiting altered transport activity; n = 5), were included in this randomized crossover study. The participants received fentanyl (5 µg/kg) intravenously alone or with the OATP inhibitor rifampicin (600 mg single oral dose). The pharmacokinetics of fentanyl and norfentanyl were determined by liquid chromatography coupled to tandem mass spectrometry (LC-MS/MS). In addition, fentanyl uptake in vitro was evaluated in OATP1B1 overexpressing HEK293 cells and compared to a mock-transfected cell line. In the clinical trial, fentanyl clearance was 18.8 ± 8.2 mL/min. kg in SLCO1B1*1a and 19.5 ± 1.8 mL/min/kg in SLCO1B1*15 carriers and not significantly different between the genotypes. During rifampicin, fentanyl clearance was 15.0 ± 4.4 mL/min/kg in SLCO1B1*1a and 16.7 ± 5.9 mL/min/kg in SLCO1B1*15 carriers (p > 0.5). In addition, in vitro data also indicate that fentanyl is not transported by OATP1B1. In conclusion, our data indicate that OATP1B1 has no impact on fentanyl pharmacokinetics in human beings.

Postmortem blood and tissue concentrations of R- and S-enantiomers of methadone and its metabolite EDDP.

Body fluids and tissues in 16 methadone (MTD)-associated fatalities were investigated to find out whether analysis of MTD and its metabolite 2-ethylidine-1,5-dimethyl-3,3-diphenylpyrrolidine (EDDP) following enantioselective separation of both compounds may assist in the interpretation of MTD findings. Individual case histories were shortly described. R- and S-MTD as well as R- and S-EDDP concentrations were determined by chiral LC-MS/MS. In all cases under investigation total MTD was present in sufficient quantities to kill or to contribute to death; concentrations were highest in lungs (MTD) and kidneys (EDDP). It appears that both MTD and EDDP undergo postmortem redistribution. In three cases, only the pharmacologically active R-MTD isomer was present. R-MTD mainly contributing to the drug's pharmacological effects, the enantiomeric ratio of MTD and EDDP may indicate whether MTD intoxication might have contributed to death or not. Further, it may be helpful to establish whether racemic MTD or enantiomerically pure R-MTD has been administered last, especially if R/S-ratios of MTD and EDDP significantly differ. It could be shown, that in vivo racemization occurs for neither MTD nor EDDP in any body fluid or tissue sample. Significantly higher MTD R/S-ratios in femoral and heart blood were present in individuals having participated in a MTD maintenance program. Overall, R/S-ratios of MTD and EDDP allow a more detailed interpretation of analytical results in MTD-associated deaths. Thus, determination of MTD and EDDP by enantioselective methods and calculation of their R/S-ratios should be favored.

Degradation of zopiclone during storage of spiked and authentic whole blood and matching dried blood spots.

Z-drugs such as zopiclone are increasingly involved in forensic cases. Its degradation occurs in solvents and biological fluids. It is assumed that hydrolysis largely accounts for the breakdown of zopiclone in aqueous media. Therefore, a stability study in blood at different storage conditions (-20, 4, 20, and 40°C) was performed to establish changes of the drug's concentration with time, also including its degradation product 2-amino-5-chloropyridine (ACP). As removal of the aqueous phase may stabilize molecules that are prone to hydrolysis, it was assessed whether the use of dried blood spots (DBS) may be an alternative for storing and analyzing zopiclone and ACP. Spiked and authentic blood samples and corresponding DBS were analyzed using fully validated LC-MS/MS assays. There was agreement between the measurement of zopiclone from either blood or matching DBS in freshly prepared samples. Results showed that zopiclone was unstable in blood at all storage temperatures except at -20°C. Stability of zopiclone in spiked and authentic blood was increased in DBS compared to matching blood samples stored at the same condition. About 85 % of the initial concentration of zopiclone was still intact in DBS on day 8 at 20°C. ACP was formed from zopiclone in equimolar amounts in both media. Therefore, determination of both zopiclone and ACP may be helpful to estimate the initial concentration in both media. Pre-analytical conditions have a major impact on the recovery of zopiclone from blood. With respect to its known advantages, DBS can be recommended as a valuable alternative for the determination of zopiclone from blood.

Effects of alcohol (BAC 0.5‰) and ecstasy (MDMA 100 mg) on simulated driving performance and traffic safety.

RATIONAL: An increasing number of fatal road-accidents have been reported in which ecstasy was found in the blood of drivers. Although, ecstasy is frequently found to have been used in combination with alcohol, studies on the acute effects of ecstasy co-administered with alcohol on driving performance are relatively rare. OBJECTIVE: The present study was designed to establish the extent of driver impairment as a consequence of ecstasy or combined ecstasy and alcohol use as compared to driving under the influence of 0.3‰, 0.5‰ and 0.8‰ alcohol. Furthermore, subjective performance was also assessed. RESULTS: Alcohol and ecstasy mainly influenced automated driving performance such as lateral and speed control. However, small to no effects of the substances were found on more complex driving behaviour. Overall, variance within the different driving measures was high especially when participants were treated with 3.4-methylenedioxy-methamphetamine (MDMA) and alcohol. Furthermore, equivalence testing showed that combined use may lead to impaired driving for some, but not all, drivers. Participants rated their own performance to be slightly worse than normal in both studies. Since driving was actually seriously deteriorated, this was a falsely positive assessment of their condition. CONCLUSIONS: The dissociation between subjective perceptions and objective performance decrements are important notions for traffic safety since this may affect a driver's judgement of whether or not it is safe to drive. For example, an intoxicated individual might decide to drive because the feelings of alertness caused by MDMA cloud the impairing effects of other drugs such as alcohol, thereby creating a potentially serious risk for traffic safety.

[Determination of blood/serum ratios of different forensically relevant analytes in authentic samples]. / Bestimmung der Blut/Serum-verhältnisse verschiedener forensisch relevanter Analyten in authentischen Proben.

For forensic toxicological investigations only whole blood, but no serum is often available. Pharmacokinetic data are helpful for interpreting the results, but most of these studies indicate serum or plasma concentrations. In order to obtain reliable conversion factors which also take intersubject variability into account, the blood/serum ratios (B/S) of oxycodone, morphine, fentanyl, hydromorphone, zopiclone, MDMA, dexamphetamine, alprazolam, risperidone and 9-hydroxyrisperidone were determined by LC-MS/MS using authentic samples. Blood and corresponding serum samples were obtained from driving studies performed with controlled or known dosages of the above drugs. The analytes were analysed in blood and serum and the following mean B/S ratios (relative standard deviations) were determined: oxycodone 1.48 (8.19 %); morphine 1.03 (3.59 %); fentanyl 0.87 (13.9 %); hydromorphone 1.04 (8.11 %); zopiclone 0.89 (16.1 %); MDMA 1.19 (8.04 %); dexamphetamine 0.89 (10.9 %); alprazolam 0.81 (5.84 %); risperidone 0.65 (7.52 %); 9-hydroxyrisperidone 0.73 (12.3 %). These mean values are largely in line with those reported in the literature. The B/S ratios did not appear to depend on partition coefficients, whereas there was strong evidence that B/S ratios decreased with increasing plasma protein binding.

Analysis of 3,4-methylenedioxymetamphetamine: whole blood versus dried blood spots.

Analysis of dried blood spots is an increasingly accepted method in therapeutic drug monitoring, whereas its application by analogy to forensic samples has not been studied in detail. Therefore, we investigated whether determination of 3,4-methylenedioxymethamphetamine (MDMA) and its main metabolite 3,4-methylendioxyamphetamine (MDA) from dried blood spots (DBS) is as reliable as that from whole blood specimens. Analysis was performed by liquid chromatography-tandem mass spectrometry following liquid-liquid extraction of blood and corresponding DBS samples from 20 volunteers participating in a controlled driving experiment under the influence of MDMA. The assay was checked for carryover, ion suppression/enhancement, linearity of response, lower limits of detection (LLOD) and quantitation, extraction efficiency and the within-run and between-run assay imprecision for both whole blood and DBS. The LLODs were 2.0 and 1.6 ng/mL for MDMA in whole blood and DBS, respectively, using a volume of 100 µL. LLODs of MDA were determined to be 0.25 ng/mL in whole blood specimens and 0.12 ng/mL in DBS. Extraction efficiency and imprecision did not differ significantly between the two methods for both MDMA and MDA. The mean concentration ratio of corresponding whole blood and DBS samples, t-test, and the Bland-Altman difference plot were used to test hypothesis of equality. Statistical analyses revealed that methods did not significantly differ for MDMA or MDA. Thus, DBS analysis has potential as a precise and inexpensive alternative to whole blood analysis of MDMA.