Current Pharmaceutical Biotechnology - Volume 19, Issue 2, 2018

Background: The emergence of psychoactive designer drugs has significantly increased over the last few years. Customs officials are responsible for the control of products entering the European Union (EU) market. This control applies to chemicals in general, pharmaceutical products and medicines. Numerous products imported from non-EU countries, often declared as ‘bath salts’ or ‘fertilizers’, contain new psychoactive substance (NPS). Review: These are not necessarily controlled under international law, but may be subject to monitoring in agreement with EU legislation. This situation imposes substantial challenges, for example, for the maintenance of spectral libraries used for their detection by designated laboratories. The chemical identification of new substances, with the use of powerful instrumentation, and the time needed for detailed analysis and interpretation of the results, demands considerable commitment. The EU Joint Research Centre endeavors to provide scientific support to EU Customs laboratories to facilitate rapid identification and characterisation of seized samples. In addition to analysing known NPS, several new chemical entities have also been identified. Frequently, these belong to NPS classes already notified to the European Monitoring Centre for Drugs and Drug Addiction (EMCDDA) by the European Early- Warning System (EWS). Conclusion: The aim of this paper is to discuss the implementation of workflow mechanisms that are in place in order to facilitate the monitoring, communication and management of analytical data. The rapid dissemination of this information between control authorities strives to help protect EU citizens against the health risks posed by harmful substances.

Background: Clinical and forensic toxicology can be defined as two disciplines involving the detection, identification and measurement of xenobiotics in biological and non-biological samples to assist in the diagnosis, treatment, prognosis and prevention of poisonings and to disclose causes and contributory causes of fatal intoxications, respectively. Objective: This article explores the close connections between clinical and forensic toxicology in overlapping areas of interest. Methods: An update has been carried out of the following seven areas of interest in analytical toxicology: doping control, Sudden Cardiac Death (SCD), brain death, Sudden Infant Death Syndrome (SIDS) and Munchausen Syndrome by Proxy (MSBP), prenatal exposure to drugs and Fetal Alcohol Syndrome (FAS), Drug-Facilitated Crimes (DFC) and intoxications by new psychoactive substances (NPS). Results: While issues such as SCD, SIDS or doping control are investigated mainly in forensic laboratories, others such as prenatal exposure to drugs or FAS are mainly treated in clinical laboratories. On the other hand, areas such MSBP, DFC or the intoxications by NPS are of interest in both laboratories. Some of these topics are initially treated in hospital emergency departments, involving clinical laboratories and sometimes lately derived to forensic laboratories. Conversely, cases with initial medicallegal implications and fatalities are directly handled by forensic toxicology, but may trigger further studies in the clinical setting. Conclusion: Many areas of common interest between clinical and forensic laboratories are building bridges between them. The increasing relationships are improving the growth, the reliability and the robustness of both kinds of laboratories.

Background: Synthetic opioids are compounds that were created to act on the opioid receptors. Novel synthetic opioids include various analogs of fentanyl (e.g., acetylfentanyl, acryloylfentanyl, carfentanil, furanylfentanyl, 4-fluorobutyrylfentanyl or ocfentanil) and newly emerging non-fentanyl compounds with different chemical structures, such as AH-7921, MT-45, and U-47700. In the last years, these drugs have rapidly emerged on the recreational drug market, and their abuse has been increasing worldwide. Due to the high potency and the low dose required to produce desired effects, the risk of overdose for these compounds including severe health implications, is quite high. Several fatal intoxication cases related to the abuse of synthetic opioids have recently been reported in the literature. Conclusion: As a consequence, the detection of these compounds in biological samples is crucial in order to get a better understanding of their concentration and distribution in body fluids. We overviewed the analytical approaches for the investigation of synthetic opioids in postmortem samples reported in the literature, with special emphasis given to cases of lethal intoxication.

Background: Blood transfusions are banned by the World Anti-Doping Agency as a form of “blood doping”. A method of detection of homologous blood transfusion (HBT) has been implemented by the accredited anti-doping laboratories worldwide; however, no internationally recognized method has been finalized so far for the direct detection of autologous blood transfusions, which can at present be revealed only by targeted longitudinal profiling of key blood parameters. Methods: The present article reports the results of an investigation aimed to pre-select potential biomarkers of blood aging and storage that can be measured to identify the presence in the sample of reinfused blood. Microparticles from platelets and erythrocytes, erythrocytes size and density, annexin V (as a marker of phosphatidylserine externalization), and the membrane surface antigens CD 55 and CD 59, were specifically considered as potential biomarkers and measured by flow cytofluorimetric techniques. Results and Conclusion: Our results indicate that the parameters more strongly affected by the ex vivo storage of whole blood are erythrocytes size and density, annexin V and microparticles. Although the real diagnostic value of the proposed biomarkers shall obviously be confirmed by further studies carried out on blood samples collected after an actual autologous blood transfusion, these results appear very encouraging towards the development of a direct method for detecting autologous blood transfusion in sport doping.

Background: In the last two decades, the consumption of drugs of abuse among women of childbearing age has experienced a significant increase and results from analyses of surveys concerning maternal intake of psychoactive prescription drugs during pregnancy indicate that the rates of intake are increasing each year. Analyses of biological matrices such as maternal hair and neonatal meconium have recently been used for assessment of gestational consumption and consequent prenatal exposure to drugs of abuse in high-risk groups of women. Methods: Maternal hair and neonatal meconium were analyzed by validated chromatographic-mass spectrometric methodologies to disclose the gestational use of drugs of abuse and psychoactive prescription drugs and consequent prenatal exposure in a cohort of 513 mother-newborn dyads at the Sant Joan de Déu Barcelona Hospital, Spain, during 2012-2013. Results: A total of 3.9% women reported drugs of abuse or prescription psychoactive drug consumption at any time during pregnancy. The prevalence of gestational consumption and the consequent prenatal exposure to drugs of abuse (e.g. cannabis, cocaine and MDMA) was 1.2% in maternal hair and 0.4% in meconium; and of psychoactive prescription drugs (e.g. venlafaxine, citalopram, fluoxetine, clomipramine), was 1.7% in maternal hair and 1.2% in meconium. The prevalence of drugs of abuse and prescription psychoactive drug consumption was lower in our specific cohort of Spanish pregnant women than in other cohorts such as those from U.S. or Denmark. Conclusion: Analysis of materno-fetal matrices provides a viable alternative to study prenatal exposure to these substances and develop specific social and health intervention recommendations.

Background: `Herbal mixtures` containing synthetic cannabinoid receptor agonists (SCRAs) are promoted as legal alternative to marihuana and are easily available via the Internet. Keeping analytical methods for the detection of these SCRAs up-to-date is a continuous challenge for clinicians and toxicologists due to the high diversity of the chemical structures and the frequent emergence of new compounds. Since many SCRAs are extensively metabolized, analytical methods used for urine testing require previous identification of the major metabolites of each compound. Objective: The aim of this study was to identify the in vivo major metabolites of nine SCRAs (AM- 694, AM-2201, JWH-007, JWH-019, JWH-203, JWH-307, MAM-2201, UR-144, XLR-11) for unambiguous detection of a drug uptake by analysis of urine samples. Method: Positive urine samples from patients of hospitals, detoxification and therapy centers as well as forensic-psychiatric clinics were analyzed by means of liquid chromatography-tandem mass spectrometry (LC-MS/MS) and liquid chromatography-quadrupole time-of-flight mass spectrometry (LCqToF- MS) for investigation of the major in vivo metabolites. Results: For all investigated SCRAs, monohydroxylation, dihydroxylation and/or formation of the Nhexanoic/ pentanoic acid metabolites were among the most abundant metabolites detected in human urine samples. Substitution of the fluorine atom was observed to be an important metabolic reaction for compounds carrying an N-(5-fluoropentyl) side chain. N-Dealkylated metabolites were not detected in vivo. Conclusion: The investigated metabolites facilitate the reliable detection of drug uptake by analysis of urine samples. For distinction between uptake of the fluorinated and the non-fluorinated analogs, the N-(4-hydroxypentyl) metabolite of the non-fluorinated analog was identified as a useful analytical target and consumption marker.

Background: Methamphetamine misuse represents an increasing global public health problem. Its consumption during pregnancy becomes a relevant issue, since it has clinical consequences for the child's health and the pregnant woman. Despite this, there are only few data in the literature that include analytical results in the matrices used to detect prenatal exposure. Objectives: 1) Present a case report of prenatal methamphetamine exposure with toxicological analytical confirmation in biological matrices; and 2) Perform a compilation of prenatal methamphetamine exposure studies and case reports which include toxicological analytical results. Methods: Prenatal methamphetamine exposure was confirmed using a traditional “screen with reflex” approach. Methamphetamine and amphetamine were quantified in urine, meconium and hair samples of the neonate and mother by gas chromatography-mass spectrometry. Also, a detailed revision of the existent literature that provides information on the analytical toxicology results has been included. Results: In the neonatal biological matrices test results of methamphetamine/amphetamine were: urine 2,966.43/1,638.71 ng/mL, meconium 1,450/<0.1 ng/g and hair 36.54/9.66 ng/mg. In the maternal biological matrices, test results were: urine 13,393.89/3,074.95 ng/mL and hair 11.29/3.37 ng/mg (0-3 cm), 4.68/2.58 (3-6 cm), 6.43/3.13 ng/mg (6-9 cm) and 4.72/2.49 ng/mg (9-12 cm). These results confirm a recent and continued regular substance use throughout pregnancy including delivery. Conclusion: The data provided will be useful for clinical purposes to improve the diagnostic and follow- up of acute and chronic intoxications. Additionally, results will be used to support interpretations in the field of forensic and legal medicine.

Background: Ethyl Glucuronide in hair (hEtG) is a commonly used biomarker in the diagnosis of chronic excessive alcohol consumption. Despite high diagnostic specificity, some cosmetic treatments may influence the hEtG concentration, leading to false positive results. Aim: The aim of this study was to evaluate three cases of alleged false positive hair samples due to the exposure to perfumes. Methods: Three subjects were monitored for up to 3 years; at least one sample collection was performed each year; all three men declared to have exposed hair to alcohol-based perfumes during the entire period, except for the last three months before last sample collection. A volunteer treated the right side of his scalp every day during a month period with alcohol-based perfumes. Collection of hair was done at both sides before the first sample treatment and at the end of the month. Hair were processed following the method routinely used in the laboratory for the determination of hEtG (double washing with methanol/dichloromethane, pulverization, overnight incubation in water, and LC-MS/MS analysis, LLOQ: 3pg/mg). Results: EtG levels in hair collected from the three men during the declared exposition period ranged from < 3.0 pg/mg to 1130 pg/mg. hEtG concentrations, at the end of the three-month period without any use of perfumes, were < 3.0 pg/mg for the two men declaring an abstinence from alcoholic beverages and 26.3 pg/mg for the subject declaring an average drinking habit of about 35 g/day ethyl alcohol. Non-treated hair of the volunteer provided negative results, while hEtG levels in treated hair were 14.6 and 24.7 pg/mg. Conclusion: Prolonged exposition of hair to alcohol-based perfumes may increase hEtG levels, resulting in false positive results.

Background/Objective: We report on a case of severe intoxication after insufflation of U-47700, a synthetic opioid that acts as a selective agonist of the μ-opioid receptor, and is several times more potent than morphine. A man in his 30s was found irresponsive in his apartment and was brought to the emergency department of a local hospital. A comatose state and severe respiratory depression were present. Hetero anamnesis revealed that the patient could have taken the substance named “U-47700”, bought on the Internet. After supportive care, the patient fully recovered. Method: Urine, blood and a white powder found at his home were collected during his hospital stay and sent for testing using liquid chromatography-high resolution mass spectrometry (LC-HRMS) on an Orbitrap instrument. Later, his pubic hair was also collected. A standard comprehensive toxicology screening was performed. Results: U-47700 was identified in all biological samples and in the seized white powder. Using liquid chromatography-high resolution mass spectrometry (LC-HRMS) the presence of U-47700 and its phase I and phase II metabolites in blood, urine and pubic hair was confirmed. U-47700 was determined at 94 ng/mL and 5.2 ng/mL in blood at the admission and the day after, respectively, and 3.02 ng/mg in pubic hair, together with its metabolites. No other opioid nor designer drug could be detected in blood and urine, while in pubic hair Cocaine, Benzoylecgonine, Norcocaine, Mephedrone, Ketamine, Norketamine, 3,4-Methylenedioxymethamphetamine, Tetrahydrocannabinol and Cannabinol were also detected. Conclusion: The toxicological findings confirmed the use of U-47700 in the intoxicated patient and also revealed a history of a poly-drug use. The use of LC-HRMS allowed the easy identification of the NPS and its metabolites in fluids and hair.