Trace Analysis of Five Androgens in Environmental Waters by Optimization of Enzymolysis and Solid-Phase Extraction Ultra-Performance Liquid Chromatography-Mass Spectrometry and its Risk Assessment.

Steroid hormones (SHs) have received widespread attention in recent years. However, current studies of SHs have primarily focused on estrogenic substances, with androgen-related studies being quite limited. We optimized the solid-phase extraction (SPE) pretreatment method, as well as the enzymolysis conditions of five androgens (androstenedione, boldenone, methandienone, nandrolone, and testosterone), to simultaneously determine their concentrations in the effluent from wastewater treatment plants and surface water samples. Then we evaluated the ecological risks of the five androgens in the effluent and Pearl River basin of Guangzhou (PR China) using the risk quotient method. The recovery rates of the targets were 90% to 99% in water samples when digested with ß-glucosidase for 90 min before solid-phase extraction, extracted with a Poly-Sery HLB column, and washed with 15% methanol aqueous solution and 2% ammonia. The established instrument's limit of detection was between 0.02 and 0.39 µg/L, and the limit of quantification was between 0.05 and 1.29 µg/L. Androstenedione, boldenone, methandienone, nandrolone, and testosterone were detected in all samples from the 2018 and 2022 wastewater influent and the 2018 surface water, with concentrations of 3.06 × 101 ng/L to 1.33 × 103 ng/L, 1.03-8.15 × 102 ng/L, and 0.93 × 101 ng/L to 5.50 × 102 ng/L, respectively. The ecological risks of androgens in wastewater influent and surface water were medium to high and low to medium, respectively. Moreover, the biotoxicity of androgens was predicted by the Ecological Structure Activity Relationships model, with methandienone and androstenedione having the highest and lowest acute and chronic toxicities, respectively. These results suggest that the risk of environmental androgens should not be ignored and that further research should be carried out. Environ Toxicol Chem 2024;43:915-925. © 2023 SETAC.

Anabolic steroids and extreme violence: a case of murder after chronic intake and under acute influence of metandienone and trenbolone.

A 32-year-old male went to the police to claim he just killed his girlfriend by inflicting several stabs with a kitchen knife. He was very nervous and particularly aggressive. About 90 min after the assault, a blood specimen was collected with natrium fluoride as preservative. The blood was free of alcohol, pharmaceuticals and drugs of abuse, but tested positive by LC-MS/MS for metandienone (32 ng/mL) and trenbolone (9 ng/mL). The perpetrator admitted regular consumption of anabolic steroids to enhance his muscular mass, as he was a professional security agent. To document long-term steroid abuse, a hair specimen was collected 3 weeks after the assault, which tested positive for both drugs. Segmental analyses revealed in the proximal 1.5 cm segment, corresponding to the period of the assault, the simultaneous presence of metandienone (11 pg/mg) and trenbolone (14 pg/mg), while only metandienone (3 pg/mg) was identified in the distal 1.5 cm segment. As aggressiveness and violence can be associated with abuse of anabolic steroids, the aetiology of this domestic crime was listed to be due impulsive behaviour in a context of antisocial lifestyle.

Death after misuse of anabolic substances (clenbuterol, stanozolol and metandienone).

A 34-year old male was found breathless and panting at home by his girlfriend three hours after a gym workout. Minutes later, he collapsed and died. Autopsy, histological and chemical analyses were conducted. The examination of the heart showed left ventricular hypertrophy, while the right coronary artery showed only a small vascular lumen (3 mm in diameter), due to its anatomical structure. In femoral blood concentrations of approx. 1 µg/L clenbuterol, approx. 56 µg/L stanozolol and approx. 8 µg/L metandienone, with trenbolone (

Isotopically labeled boldenone as a better marker of derivatization efficiency for improved quality control in anti-doping analysis.

At present, anti-doping laboratories use androsterone, a major urinary steroid metabolite, to evaluate completeness of the derivatization step. This is typically done by calculating the ratio of mono-trimethylsilyl (TMS) androsterone to the total mono- and di-TMS androsterone. Certain samples may show an elevated percentage of mono-TMS androsterone indicating a failed derivatization step. In such cases, the laboratory would have to repeat the analysis or perform other remedial actions to ensure that completeness of derivatization is achieved. We have noticed that a poorly derivatized positive control sample spiked with various target analytes has a disproportionally low abundance of the di-TMS derivatives of boldenone and 18-nor-17ß-hydroxymethyl-17α-methylandrosta-1,4,13-trien-3-one (methandienone long-term metabolite). A follow-up investigation confirmed that 1,4-diene-3-one steroids are more likely to fail during the trimethylsilylation step. To better control derivatization efficiency, 13 C3 -boldenone (13C-BLD) was incorporated into our routine procedure as an additional internal standard. Analysis of a large number of urine samples has shown that derivatization of 13C-BLD could be grossly incomplete even in cases when mono-TMS androsterone is well below 1%. In other words, one or both of boldenone and the long-term metabolite of methandienone could remain undetected unless the laboratory has the means to recognize samples where derivatization of 1,4-diene-3-one steroids failed.

Sensitive enzyme immunoassay for screening methandienone in dietary supplements.

Methandienone is a synthetic exogenous steroid which, like other anabolic steroids, is strictly regulated in many countries. In recent years, increasing numbers have been detected of illegal additions into dietary supplements of methandienone and other anabolic androgenic steroids (AAS). In this work, a competitive indirect enzyme-linked immunosorbent assay (ELISA) has been constructed for the detection of methandienone using an antiserum against methandienone. Under optimal experimental conditions, the ELISA achieved a limit of detection of 0.04 ± 0.01 µg.g-1. The obtained intra- and inter-day coefficients of variation were less than 8%. The developed ELISA was applied in the analysis of real dietary supplement samples. To minimise the effect of the sample matrix, the sample extracts were simply diluted before addition into the immunoassay. The achieved recovery values were around 100%. Results obtained from the ELISA correlated well, both in terms of accuracy and precision, with those obtained by UHPLC-MS/MS (reference method). The presented ELISA could be successfully applied for the simple screening of dietary supplements.

Investigation of the composition of anabolic tablets using near infrared spectroscopy and Raman chemical imaging.

The use of performance enhancing drugs is a widespread phenomenon in professional and leisure sports. A spectroscopic study was carried out on anabolic tablets labelled as 5 mg methandienone tablets provided by police departments. The analytical approach was based on a two-step methodology: a fast analysis of tablets using near infrared (NIR) spectroscopy to assess sample homogeneity based on their global composition, followed by Raman chemical imaging of one sample per NIR profile to obtain information on sample formulation. NIR spectroscopy assisted by a principal components analysis (PCA) enabled fast discrimination of different profiles based on the excipient formulation. Raman hyperspectral imaging and multivariate curve resolution - alternating least square (MCR-ALS) provided chemical images of the distribution of the active substance and excipients within tablets and facilitated identification of the active compounds. The combination of NIR spectroscopy and Raman chemical imaging highlighted dose-to-dose variations and succeeded in the discrimination of four different formulations out of eight similar samples of anabolic tablets. Some samples contained either methandienone or methyltestosterone whereas one sample did not contain an active substance. Other ingredients were sucrose, lactose, starch or talc. Both techniques were fast and non-destructive and therefore can be carried out as exploratory methods prior to destructive screening methods. Copyright © 2015 John Wiley & Sons, Ltd.

Determination of anabolic agents in dietary supplements by liquid chromatography-high-resolution mass spectrometry.

A sensitive method for the identification and quantification of anabolic steroids and clenbuterol at trace levels in dietary supplements by liquid chromatography-high-resolution mass spectrometry (LC-HRMS) in atmospheric pressure ionisation (APCI) mode using a single-stage Orbitrap analyser operating at a resolution power of 100 000 full width at half maximum (FWHM) was developed and validated. A total of 1 g of dietary supplement was added with testosterone-d3 as internal standard, dissolved in methanol, evaporated to dryness, diluted in sodium hydroxide solution and extracted with a mixture of pentane/ethyl ether 9:1. The extract was directly injected into the LC-HRMS system. The method was fully validated. Limits of detection (LODs) obtained for anabolic androgenic steroids (AASs) varied from 1 to 25 ng g(-1) and the limit of quantitation (LOQ) was 50 ng g(-1) for all analytes. The calibration was linear for all compounds in the range from the LOQ to 2000 ng g(-1), with correlation coefficients always higher than 0.99. Accuracy (intended as %E) and repeatability (%CV) were always lower than 15%. Good values of matrix effect and recovery were achieved. The ease of the sample preparation together with a fast run time of only 16 min permitted rapid identification of the analytes. The method was applied to the analysis of 30 dietary supplements in order to check for the presence of anabolic agents not labelled as being present in these supplements. Many AASs were often detected in the same sample: indeed, androstenedione was detected in nine supplements, 5-androsten-3ß-ol-17-one (DHEA) in 12, methandienone in three, stanozolol in one, testosterone in seven and testosterone esters in four of them. A retrospective analysis of suspected compounds not included at the beginning of the method development was also possible by means of the full acquisition spectra obtained with the HRMS technique.

Preparation of an immunoaffinity column and its application in sample cleanup for methandrostenolone residues detection.

Methandrostenolone (MA) is a steroid used as veterinary medicine on stockbreeding to promote animal growth. The use of MA has been strictly regulated because of its harmful effect on consumers. This paper describes the production of polyclonal antibody (pAb) against MA, the preparation of immunoaffinity column (IAC) and its potential application to the selective extraction of MA residues from animal tissue and feed samples. The produced pAb exhibited good sensitivity to MA with an IC(50) value of 5.6 ng/mL. The cross-reactivity values of the antibody with MA structurally related compounds of testosterone propionate (TP) and trenbolone (TR) were lower than 0.6%. By coupling the produced antibody with CNBr-activated Sepharose 4B, an IAC was prepared. 2% methanol and 80% methanol were selected as loading and eluting solution by optimization. The maximum capacity of the column for MA was approximately 334 ng/mL gel. The average recovery of 20, 40 and 60 ng/mL MA standard solutions from IACs was 97.9% with the relative standard deviation (RSD) among columns of 6.7%. After 3 times of repeated usage, the column capacity and recovery rate still remained 82.0% and 92.6% respectively. The IACs were then challenged with MA-fortified animal tissue and feed samples, recoveries of MA were found to be in the range of 83.5-99.7%.

High amounts of 17-methylated anabolic-androgenic steroids in effervescent tablets on the dietary supplement market.

In numerous studies it has been demonstrated that several nutritional supplements contain prohormones not declared on the label. In the current study two products (effervescent tablets) containing high amounts of the 17-methylated anabolic androgenic steroids metandienone (product 1: 16.8 mg/tablet) and stanozolol (product 2: 14.5 mg/tablet) were identified. Additionally in both products norandrostenedione was detected, in product 2 with minor amounts of several other steroids. The substances identified can cause enormous health risks. In addition, the use of the analyzed tablets can lead to positive doping results for metabolites of the respective steroids in sports. This study again shows the insufficient surveillance of the production and trade of dietary supplements. Consumers should be aware of the enormous health and doping risks connected with the use of such products. For GC-MS identification of the analytes the trimethylsilyl derivatives of the steroids and the mixed N-t-butyldimethylsilyl,O-trimethylsilyl derivatives were used. The quantitation of metandienone, norandrostenedione, and stanozolol was performed using HPLC-DAD.

Doping control for metandienone using hair analyzed by gas chromatography-tandem mass spectrometry.

A sensitive, specific and reproducible method for the quantitative determination of the anabolic metandienone in human hair has been developed. The preparation involved a decontamination step with methylene chloride. The hair sample (about 50 mg) was solubilised in 1 ml 1 M NaOH, 10 min at 95 degrees C, in presence of 2 ng of nandrolone-d(3) used as internal standard. The homogenate was neutralized and extracted using consecutively a solid-phase extraction (Isolute C(18) eluted with methanol) and a liquid-liquid extraction with pentane. The residue was derivatized by adding 5 microl MSTFA/NH(4)I/2-mercaptoethanol (250 microl; 5 mg; 15 microl) and 45 microl MSTFA, then incubated for 20 min at 60 degrees C. A 1 microl aliquot of derivatized extract was injected into the column (HP5-MS capillary column, 5% phenyl-95% methylsiloxane, 30 m x 0.32 mm i.d., 0.25 microm film thickness) of a Hewlett Packard (Palo Alto, CA, USA) gas chromatograph (6890 Series). Metandienone was identified using three transitions (its daughter ions at m/z 339 and 206 for the parent 444 and 191 for 206) using a Waters Quattro Micro MS-MS system. The transition m/z 444 to 206 has been used as quantification transition and the others as identification transitions. The assay was capable of detecting 2 pg/mg of metandienone when approximately 50 mg of hair material was processed. Linearity was observed for metandienone concentrations ranging from 2 to 500 pg/mg with a correlation coefficient of 0.9997. Intra-day and between-day precisions at 50 pg/mg were 13.4-16.5% and 22.0%, respectively, with an extraction recovery of 48%. The analysis of hair, cut into four segments, obtained from an athlete, revealed the presence of metandienone at the concentrations of 78, 7, 10 and 108 pg/mg in each segment of hair (0-1, 1-2, 2-3 and 3 cm to the tip).

Research of stimulants and anabolic steroids in dietary supplements.

The purpose of this study was to analyze the composition of 103 dietary supplements bought on the internet. The supplements were dispatched in four different categories according to their announced contents [creatine, prohormones, "mental enhancers" and branched chain amino acids (BCAA)]. All the supplements were screened for the presence of stimulants and main anabolic steroids parent compounds. At the same time, the research was focused on the precursors and metabolites of testosterone and nandrolone. The study pointed out three products containing an anabolic steroid, metandienone, in a very high amount. The ingestion of such products induced a high quantity of metandienone metabolites in urines that would be considered as a positive antidoping test. The results have also shown that one creatine product and three "mental enhancers" contained traces of hormones or prohormones not claimed on the labels and 14 prohormone products contained substances other than those indicated by the manufacturer. The oral intake of the creatine product revealed the presence of the two main nandrolone metabolites (19-norandrosterone and 19-noretiocholanolone) in urine.

Validation of a GC-MS screening method for anabolizing agents in aqueous nutritional supplements.

A sensitive and selective method for the screening of anabolizing agents in aqueous nutritional supplements is described and validated. A total of 28 different anabolizing agents are screened for, including testosterone and prohormones, nandrolone and prohormones, stanozolol, and metandienone. The different analytes are extracted from the aqueous nutritional supplements by liquid-liquid extraction with a mixture of pentane and freshly distilled diethylether (1:1) after the supplements have been made alkaline with a NaHCO3-K2CO3 (2:1) buffer. The anabolizing agents are derivatized with a mixture of MSTFA-NH4I-ethanethiol (320:1:2) as routinely used for the screening of anabolic steroids extracted from urine. The derivatives are analyzed by gas chromatography (GC)-mass spectrometry (MS) in the selective ion monitoring mode. The limits of detection range from 1 to 10 ng/mL. One aqueous nutritional supplement (creatine serum) was analyzed with this screening method and was found to contain dehydroepiandrosterone (DHEA) at very low concentrations. The presence of DHEA could be confirmed with GC-MS-MS. Results of the application of this method and a similar method for solid nutritional supplements previously described are given.

Identification of metabolites of the anabolic steroid methandienone formed by bovine hepatocytes in vitro.

Monolayer cultures of bovine hepatocytes were used to investigate the biotransformation of methandienone in vitro. After incubation of bovine hepatocytes with methandienone, samples were taken at different times. The samples were treated with deconjugation enzymes and extracted with diethyl ether. The metabolites formed were converted to their trimethylsilylether derivatives. By using gas chromatography-mass spectrometry with electron impact and chemical ionisation, several metabolites were identified. After 24 h of incubation with bovine hepatocytes, 83% of the parent compound was converted to its metabolites. The major metabolite found was 6-beta-hydroxymethandienone with a yield of 24%. This compound was identified after comparison with an authentic sample of 6 beta-hydroxymethandienone, which was synthesized chemically.

Studies on anabolic steroids. V. Sequential reduction of methandienone and structurally related steroid A-ring substituents in humans: gas chromatographic-mass spectrometric study of the corresponding urinary metabolites.

The biotransformation of methandienone (17 beta-hydroxy-17 alpha-methylandrosta-1,4-dien-3-one) in human adults, more particularly the sequential reduction of its A-ring substituents, was investigated by gas chromatography-mass spectrometry. Two pairs of 17-epimeric tetrahydro diols resulting from the stereoselective reduction of the delta 4- and 3-oxo groups and of the delta 1-function were characterized. The major diols were 17 alpha-methyl-5 alpha-androstane-3 alpha,17 beta-diol and 17 alpha-methyl-5 beta-androstane-3 alpha,17 beta-diol, which were both excreted in the conjugate fraction in a 1:3.8 ratio. The immediate metabolic precursors of the 5 beta-diol, namely 17 beta-hydroxy-17 alpha-methyl-5 beta-androsta-1-en-3-one and 17 alpha-methyl-5 beta-androsta-1-en-3 alpha,17 beta diol and their corresponding 17-epimers, were also identified in post-administration urine samples. These data indicated that reduction of methandienone A-ring substituents proceeds according to the sequence. delta 4-, 3-oxo- and delta 1-. The A-ring reduction products of the structurally related steroids mestanolone, 17 alpha-methyltestosterone and oxymethone were also characterized and provided further analytical and metabolic evidence supporting the proposed route of methandienone A-ring reduction. It was also demonstrated using synthetic 17 beta-sulfate conjugates of methandienone and 17 alpha-methyltestosterone that their corresponding 17-epimers are formed by nucleophilic substitution by water of the labile sulfate moiety. The steroidal metabolites were identified on the basis of their characteristic mass spectral features and by comparison with authentic reference standards. Metabolic pathways accounting for the occurrence of the metabolites of interest in post-administration urine samples are proposed.

[An analysis of the structure of the metabolic products of methandrostenolone in the body of white rats]. / Analiz struktury produktov metabolizma metandrostenolona v organizme belykh krys.

The products of biotransformation of an anabolic steroidal drug methandrostenolone in the Wistar albino rat organism were studied. By using the developed methods of HPLC the products of a complete reduction of methandrostenolone were isolated and their chemical structures were determined. It was found that at the reduction of the system of methandrostenolone double bonds were formed all four possible isomers.

Liquid chromatographic and spectral analysis of the 17-hydroxy anabolic steroids.

The liquid chromatographic properties of various 17-hydroxy anabolic steroids are examined under reversed-phase conditions. These anabolic steroids are now listed as controlled drugs in many states due to their abuse potential in athletics, body building, and other areas. These nonesterified steroids are separated on a C18 stationary phase with a 70% methanol in water mobile phase. In a few cases, two compounds display very similar retention properties. However, dual-wavelength detection at 254 and 280 nm allows for their differentiation. Reversed-phase retention parallels steroid lipophilicity based on hydroxyl and methyl group substituents. Also, those steroids containing a dienone substructure are more polar than steroids containing an enone moiety.

Determination of methandrostenolone and its metabolites in equine plasma and urine by coupled-column liquid chromatography with ultraviolet detection and confirmation by tandem mass spectrometry.

Monitoring steroid use requires an understanding of the metabolism in the species in question and development of sensitive methods for screening of the steroid or its metabolites in urine. Qualitative information for confirmation of methandrostenolone and identification of its metabolites was primarily obtained by coupled-column high-performance liquid chromatography-tandem mass spectrometry. The steroids and a sulphuric acid conjugate were isolated and identified by their daughter ion mass spectra in the urine of both man and the horse following administration of methandrostenolone. Spontaneous hydrolysis of methandrostenolone sulphate gave 17-epimethandrostenolone and several dehydration products. This reaction had a half-life of 16 min in equine urine at 27 degrees C. Mono- and dihydroxylated metabolites were also identified. Several screening methods were evaluated for detection and confirmation of methandrostenolone use including thin-layer chromatography and high-performance liquid chromatography. Coupled-column liquid chromatography was used for automated clean-up of analytes difficult to isolate by manual methods. The recovery of methandrostenolone was 101 +/- 3.3% (mean +/- S.D.) at 6.5 ng/ml and both methandrostenolone and 17-epimethandrostenolone were quantified in urine by ultraviolet detection up to six days after a 250-mg intramuscular dose to a horse. The utility of on-line tandem mass spectrometry for confirmation of suspected metabolites is also shown.

[Metabolic products of methandrostenolone in the body of white rats studied by high-performance liquid chromatography]. / Izuchenie produktov metabolizma metandrostenolona v organizme belykh krys metodom vysokoéffektivnoi zhidkostnoi khromatografii.

Metabolism of the anabolic steroidal hormone methandrostenolone in Wistar rats was studied by high performance liquid chromatography (HPLC) and redioisotope techniques. The conditions for isolation of methandrostenolone metabolites by HPLC were developed. Reduction of the double bonds was shown to be an early stage in methandrostenolone biotransformation. The main portion of the metabolites was excreted with urine as glucuronide conjugates. No sulfoesters were found.

[Dynamic distribution of methandrostenolone in the body of white rats]. / Dinamika raspredeleniia metandrostenolona v organizma belykh krys.

Dynamics of distribution of anabolic steroidal hormone methandrostenolone and routes of its elimination from the organism of Wistar rats were studied by using methods of radioisotopes and high-performance liquid chromatography. Methandrostenolone metabolites were shown to be excreted mainly in the urine. Methandrostenolone metabolism is a complicated process in the course of which redistribution of metabolites among various organs occurs. The anabolic effect of methandrostenolone is supposed to be due to the formation of its metabolites.

[Radioimmune determination of steroids--comparison of 2 variants of the methods]. / Radioimmunnoe opredelenie steroidov--sravnenie dvukh variantov metoda.

Various conditions of radioimmunoassay (RIA) technique for estimation of 19-nortestosterone and methandrostenolone were studied. Dilution of antiserum, required for 50% binding of the labelled steroids, depended primarily on the RIA procedure used. When 19-nortestosterone was estimated by means of these two RIA procedures, the final dilution of antiserum was equal to 1:24,000 and 1:475,000, respectively. Characteristics of standard curves, sensitivity and accuracy were similar in these RIA procedures, but the rate of cross-reactions between antiserum and the steroids was different. Both RIA procedures indicated similar values of methandroctenolone and 19-nortestosterone content excreted with urine after oral administration of the steroids.