Ethyl glucuronide and ethyl sulfate in the zebrafish after ethanol exposure.

Ethanol exposure during pregnancy is an important problem and is the cause of fetal alcohol syndrome (FAS) and fetal alcohol spectrum disorder (FASD). The etiology of FAS and FASD can be elucidated using animal models. Recently, a novel model, the zebrafish (Danio rerio), has garnered the interest of researchers. This study confirmed the negative influence of ethyl alcohol (0.5 %, 1.5 %, and 2.5 % v/v) on the development of zebrafish embryos. The observed malformations included pericardial and yolk sac edema, increased body curvature, tail edema, and a decreased embryo hatching rate. The differences in body length, body width, and heart rate were statistically significant. Due to the similarities in the quantity and function of ethanol biotransformation enzymes between zebrafish and mammals, this study investigated the nonoxidative metabolites of ethanol - ethyl glucuronide (EtG) and ethyl sulfate (EtS) - in zebrafish following ethanol exposure. This research confirmed that EtG and EtS concentrations can be measured in zebrafish embryos, and the levels of these metabolites appear to be associated with the ethyl alcohol concentration in the medium.

Variation of Sequential Ligandrol (LGD-4033) Metabolite Levels in Routine Anti-Doping Urine Samples Detected with or without Other Xenobiotics.

Ligandrol, also known as LGD-4033, belongs to the group of selective androgen receptor modulators (SARMs). Ligandrol was first included in the WADA Prohibited List in 2018. This work presents a method that allows for the detection and identification of ligandrol and its metabolite in athletes' urine and in dietary supplements by means of ultra performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS). Samples were prepared according to an approach involving acid hydrolysis and double liquid-liquid extraction (LLE). Furthermore, due to the lack of reference material for ligandrol metabolites, the urine collected from the control excretion study was analyzed. The presented method is appropriate to monitor ligandrol and its metabolites. The samples collected for doping control purpose contained multiple metabolites, which may potentially rule out the hypothesis of ingesting a single 1 µg or 10 µg dose only. Another aspect to take into account is that ligandrol can be applied together with SARMs, steroids, and GHSs. This will also affect the substances' metabolism and elimination. It is also worth noting that dietary supplements may contain ligandrol as an official ingredient or as a contaminant. The described method may be usefully applied by other anti-doping or toxicological laboratories.

Ecdysterone: Possible sources of origin in urine.

Ecdysterone (crustecdysone; beta-ecdysone; 20-hydroxyecdysone) is a naturally occurring steroid hormone belonging to the ecdysteroid class. The presented study investigated the possible concentration range of ecdysterone in urine after consumption of various preparations of spinach, drinking tea (made from Rhapoiticum Carthamoides) and topical use of a cream containing Cyanotis arachnoides. It is very important to establish reference ranges reflecting concentrations compatible with dietary habits and common uses of care products. The data obtained in the research may be used in the interpretation of results of routine analyses. In addition, elimination time and observed concentrations provided by the studies conducted by the Polish Anti-Doping Laboratory can be used by WADA. In the case of spinach, peak elimination occurred within the first few hours, followed by a rapid decline. As for the other plants, instead of clear peak concentrations, gradual elimination was observed. Individual differences were observed between volunteers depending on route of administration. Differences in ecdysterone elimination following ingestion of spinach-based and other plant products were observed too. The highest observed ecdysterone concentration was related to the paste consumption, and it was 691 ng/ml. Finally, our findings were compared with the data collected for the samples routinely tested as part of the monitoring program. During 2.5 years, the presence of ecdysterone was confirmed in as many as 507 samples out of 11 191 total samples tested. The concentration range was very wide, from 1 ng/ml (which is the LOD for this method in the Polish Anti-Doping Laboratory) to over 2000 ng/ml.

Detection of bemitil and its metabolite in urine by means of LC-MS/MS in view of doping control analysis.

2-(Ethylthio) benzimidazole is an active ingredient of Antihot, a dietary supplement sold in Ukraine. The substance, available also under names of Bemitil, Metaprot, and Bemaktor, was developed in the USSR in 1970s, and after tests on Soviet cosmonauts and soldiers, several studies on its influence on athletes' performances were conducted. The research showed that bemitil is a synthetic adaptogen which is capable to significantly increase physical performance and reduce the time of regeneration. Moreover, according to supplement's distributor, the substance improves both physical performance and resistance to stress. Taking into account these properties, it appears plausible that the World Anti-Doping Agency (WADA) decided to include bemitil in its 2018 monitoring program. To select markers of bemitil use, six doses of the supplement (two per day, on three consecutive days) were administrated to six healthy volunteers (three men, three women, 26-49 years). Urine samples were collected before, during and up to 30 days after the first ingestion. Samples were analyzed by means of ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS). The study revealed that bemitil can be traced in urine as either a parent compound or its glucuronide conjugate, which is more abundant and has a wider detection window.

The influence of caffeine on ethyl glucuronide levels in rat serum and in rat hair.

BACKGROUND: Ethanol and caffeine are the most widely used psychoactive substances in the world, with an observed steady increase in the combined consumption of alcohol and caffeine. Specific signs of ethanol-caffeine interactions have been reported both in humans and in animals. The metabolic effects of these interactions have not been fully elucidated. There are no published reports on the influence of caffeine on ethyl glucuronide (EtG) formation. EtG is a direct metabolite of ethanol and is very often used as a biomarker of alcohol consumption. Here, we investigated the influence of caffeine on the formation of EtG in rat plasma and EtG incorporation into the hair. METHODS: Studies were conducted on three male Wistar rat groups, each receiving either ethanol at 3g/kg/day, ethanol (at the same dose) with caffeine at 3mg/kg/day, or caffeine at 3mg/kg/day for four weeks. EtG and caffeine levels were evaluated in hair and in blood after the last administration. RESULTS: Blood EtG levels after the administration of ethanol together with caffeine were significantly higher than after the administration of ethanol alone. EtG levels in rat hair in the ethanol-and-caffeine group were also higher than in the ethanol-only group, but the difference was not statistically significant. CONCLUSION: This study shows the possible effect of ethanol and caffeine co-administration on EtG formation. Caffeine stimulates EtG synthesis resulting in increased blood and, possibly, hair levels of this metabolite. However, the role of these changes in estimating alcohol consumption requires further studies.

Analysis for higenamine in urine by means of ultra-high-performance liquid chromatography-tandem mass spectrometry: Interpretation of results.

Higenamine (Norcoclaurine) is a very popular substance in Chinese medicine and is present in many plants. The substance may be also found in supplements or nutrients, consumption of which may result in violation of anti-doping rules. Higenamine is prohibited in sport at all times and included in Class S3 (ß-2-agonists) of the World Anti-Doping Agency (WADA) 2017 Prohibited List. The presence of higenamine in urine samples at concentrations greater than or equal to 10 ng/mL constitutes an adverse analytical finding (AAF). This work presents a new metabolite of higenamine in urine sample which was identified by means of ultra performance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS). Samples were prepared according to 2 protocols - a Dilute and Shoot (DaS) approach and a method involving acid hydrolysis and double liquid-liquid extraction (LLE). To meet the requirements typical for a confirmatory analysis, the screening procedure was further developed. In samples prepared by the DaS method, 2 peaks were observed; the earlier one was specific for higenamine and the later one unknown. MS scan analysis showed mass about 80 Da higher than that of higenamine. In turn, in samples prepared in accordance with the protocol involving hydrolysis, an increase in the area under peak for higenamine was observed, while the second peak was absent. It seems that the described strategy of detection of higenamine in urine avoids false negative results.