B. Le Bizec

Recent developments in the use and abuse of growth promoters

During the last few years, control within the European Union (EU) for illegal growth promoters in cattle and pigs revealed only a limited number of positives. Analysis of illegal preparations, however, showed that steroids, often (esters of) natural hormones, and -agonists are still used. Corticosteroids, controlled to a much lesser extent, seem to have become the most important group, while even thyreostats remain. Alarming information was obtained from specific investigations in which a large variety of products were found, some of which had never been reported to be misused in the field of growth promotion. For -agonists and quinoxaline compounds, analogues of known compounds are synthesised. Other compounds are readily available as they are registered as growth promoters in some countries outside Europe or are allowed for specific veterinary purposes. Some classes of veterinary drugs are misused for their secondary pharmacological effects, e.g. benzodiazepines as feed intake enhancers and non-steroidal anti-inflammatory drugs (NSAIDs) as pale meat-making agents. Several non-traditional substances are suspected to be used in the field of breeding animals. This is the case for growth hormones (GHs) and all substances acting over this anabolic compound, as for instance, orally GH secretagogue. Moreover, ecdysteroids, which according to old Russian studies, have anabolic activity, are actually very easy to purchase on the Internet. Recent findings in different classes of growth promoters are discussed in detail.

Novel analytical methods for the determination of steroid hormones in edible matrices

This paper reviews recently published multi-residue chromatographic methods for the determination of steroid hormones in edible matrices. After a brief introduction on steroid hormones and their use in animal fattening, the most relevant EU legislation regarding the residue control of these substances is presented. An overview of multi-residue analytical methods, covering sample extraction and purification as well as chromatographic separation and different detection methods, being in use for the determination of steroid hormones (estrogens, gestagens and androgens), is provided to illustrate common trends and method variability. Emphasis was laid on edible matrices and more specifically on meat, liver, kidney, fat and milk. Additionally, the possibilities of novel analytical approaches are discussed. The review also covers specific attention on the determination of natural steroids. Finally, the analytical possibilities for phytosterols, naturally occurring steroid analogues of vegetable origin and a specific group of steroid hormones with a hemi-endogenous status are highlighted.

Ultra trace detection of a wide range of anabolic steroids in meat by gas chromatography coupled to mass spectrometry.

The control on use of anabolic agents in meat producing animals is generally based on urine, faeces or hair analysis. This exercise, which is usually performed in slaughterhouses or on farms, is not relevant to imported carcasses or retail meat. A single sensitive method for a wide range of anabolic steroids was developed. After extraction of the lyophilised meat, enzymatic hydrolysis was used for deconjugation. Solid-phase extraction on a polymeric stationary phase was performed prior to hydrolysis of ester residues under alkaline conditions. Liquid-liquid partitioning was used to separate the analytes into two main categories: phenol containing molecules, such as phenolic steroids, resorcylic acid lactones and stilbenes, and delta4-3-one containing molecules, such as most androgens and progestagens. Solid-phase extraction on silica columns was performed before applying a specific derivatisation for each compound sub-group. The combination of high-resolution chromatography with a quadrupole mass spectrometer permitted detection of 23 steroids in the 5-100 ng/kg range. Ion chromatograms for residue positive samples are shown and discussed.

Evidence for the presence of endogenous 19-norandrosterone in human urine

In 1997, in the scope of antidoping control in sport, a not inconsiderable number of urine analysed by official laboratories revealed the presence of 19-nortestosterone (19-NT: 17beta-hydroxyestr-4-en-3-one) metabolites: 19-norandrosterone (19-NA: 3alpha-hydroxy-5alpha-estran-17-one) and 19-noretiocholanolone (19-NE: 3alpha-hydroxy-5beta-estran-17-one). These repeated results on a short period of time generated some investigations and especially the verification of the possible production of these metabolites by an unknown endogenous route in adult entire male. Some experiences were led on different persons known to be non-treated with steroids and more precisely with nandrolone. Extractive methods were developed focusing on their selectivity, i.e. searching to eliminate at best matrix interferences from the target analytes. Gas chromatography coupled to mass spectrometry (quadrupole and magnetic instruments) was used to detect, identify and quantify the suspected signals. Two types of derivatization (TMS and TBDMS), a semi-preparative HPLC as well as co-chromatography proved unambiguously the presence, in more than 50% of the analysed urine (n = 40), of 19-NA at concentrations between 0.05 and 0.60 ng/ml. 19-NE was not detected with the developed methods (LOD<0.02 ng/ml). Experiments led on athletes showed that after a prolonged intense effort, the 19-NA concentration can be increased by a factor varying between 2 and 4. Even if some complementary researches have to be done in order to determine the maximal physiological level of 19-NA and 19-NE, these results should considerably change the strategy of antidoping laboratories.

Presence and metabolism of the anabolic steroid boldenone in various animal species : a review

The review summarizes current knowledge on the possible illegal use of the anabolic steroid boldenone. The presence of boldenone and metabolites in different animal species and the possibility of the occurrence of endogenous boldenone and metabolites is assessed, as are the methods of analysis used for detection. Different laboratories in the European Union have examined the occurrence of boldenone and its metabolites. The results were discussed at different meetings of a European Commission DG-SANCO Working Party and summarized in an expert report. The situation of the different laboratories at this time is also covered herein. The overall conclusion of the Working Party was that there was a necessity for further research to distinguish between naturally occurring and illegally used boldenone forms. The confirmation of the presence of boldenone metabolites (free and conjugated forms) in certain matrices of animals is proposed as a marker for the illegal treatment with boldenone.

Multi-residue analysis for β-agonistic drugs in urine of meat-producing animals by gas chromatography—mass spectrometry

Two reliable gas chromatographic-mass spectrometric (GCMS) procedures for the unequivocal determination of β-agonists in urine of meat-producing animals are described. The β-agonistic drugs are extracted using disposable mixed solid-phase extraction columns. The urine sample (10 ml) is buffered (pH 6.0) and applied to a Clean Screen DAU cartridge. The analytes are eluted with ethyl acetate containing 3% (v/v) of concentrated (32%) ammonia solution. The extracted analytes are derivatized to either their trimethylsilyl (TMS) or cyclic 2-(dimethyl)silamorpholine (DMS) derivatives and analysed by GCMS under electron impact (EI) and positive-ion chemical ionization (PCI) conditions. Cyclic DMS derivatives proved to be useful for screening for or confirming the presence of clenbuterol analogues in the EI mode. If necessary, they could also be confirmed in the PCI mode using ammonia as reagent gas. With regard to TMS derivatives, their use provided a rapid and efficient method for screening for (EI) and confirming (PCI) the presence of at least thirteen β-agonists at the low ng ml−1 level.

Presence and metabolism of endogenous androgenic-anabolic steroid hormones in meat-producing animals: a review

The presence and metabolism of endogenous steroid hormones in meat-producing animals has been the subject of much research over the past 40 years. While significant data are available, no comprehensive review has yet been performed. Species considered in this review are bovine, porcine, ovine, equine, caprine and cervine, while steroid hormones include the androgenic–anabolic steroids testosterone, nandrolone and boldenone, as well as their precursors and metabolites. Information on endogenous steroid hormone concentrations is primarily useful in two ways: (1) in relation to pathological versus ‘normal’ physiology and (2) in relation to the detection of the illegal abuse of these hormones in residue surveillance programmes. Since the major focus of this review is on the detection of steroids abuse in animal production, the information gathered to date is used to guide future research. A major deficiency in much of the existing published literature is the lack of standardization and formal validation of experimental approach. Key articles are cited that highlight the huge variation in reported steroid concentrations that can result when samples are analysed by different laboratories under different conditions. These deficiencies are in most cases so fundamental that it is difficult to make reliable comparisons between data sets and hence it is currently impossible to recommend definitive detection strategies. Standardization of the experimental approach would need to involve common experimental protocols and collaboratively validated analytical methods. In particular, standardization would need to cover everything from the demographic of the animal population studied, the method of sample collection and storage (especially the need to sample live versus slaughter sampling since the two methods of surveillance have very different requirements, particularly temporally), sample preparation technique (including mode of extraction, hydrolysis and derivatization), the end-point analytical detection technique, validation protocols, and the statistical methods applied to the resulting data. Although efforts are already underway (at HFL and LABERCA) to produce more definitive data and promote communication among the scientific community on this issue, the convening of a formal European Union working party is recommended.

Determination of naturally occurring oestrogens and androgens in retail samples of milk and eggs

The occurrence of the main steroid hormones (oestrone, 17α-oestradiol, 17β-oestradiol, 17α-testosterone, 17β-testosterone, dehydroepiandrosterone, 4-androstenedione), especially in milk and eggs, was investigated. An analytical method based on GC-MS/MS was developed for steroid measurement at an ultra-trace level in food products. The limits of detection for oestrogens were about 5 and 30 ng kg−1 in milk and eggs, respectively. For androgens, the limits of detection were around 10 and 50 ng kg−1 in milk and eggs, respectively. The method was applied to milk and egg samples collected in a French supermarket. In milk, oestrone was found at levels between 100 and 300 ng l−1, while 17β-oestradiol levels were estimated to be near 20 ng l−1. 17α-testosterone was found to be from 50 ng l−1 in skimmed milk to 85 ng l−1 in whole milk. In egg samples, oestrone and 17β-oestradiol were found at 1.5 and 0.9 µg kg−1, respectively, while 17α-oestradiol was found to be in lower concentrations (i.e. around 0.55 µg kg−1). Regarding androgens, 17α- and 17β-testosterone were estimated at 1.9 and 1.3 µg kg−1, respectively. These results represent a first attempt to estimate the food exposure to steroid hormones. In the future, the collection of additional data should permit the comparison between this exogenous dietary intake and the daily endogenous production in pre-pubertal children as a basis of risk assessment regarding endocrine disruption linked to these molecules for this critical population.

Development and validation of a specific and sensitive gas chromatography tandem mass spectrometry method for the determination of bisphenol A residues in a large set of food items.

BPA-containing products are widely used in foodstuffs packaging as authorized within the European Union (UE no. 10/2011). Therefore, foods and beverages are in contact with BPA which can migrate from food contact material to foodstuffs. An accurate assessment of the exposure of the consumers to BPA is crucial for a non-ambiguous risk characterization. In this context, an efficient analytical method using gas chromatography coupled to tandem mass spectrometry (GC-MS/MS), in the selected reaction monitoring (SRM) mode, was developed for the quantification of BPA in foodstuffs at very low levels (<0.5μgkg(-1)). A standard operating procedure, based on the combination of two successive solid phase extractions (SPE), was developed for various liquid and solid foodstuffs. The use of (13)C12-BPA as internal standard allowed accurate quantification of BPA by isotopic dilution. Control charts based on both blank and certified materials have been implemented to ensure analytical data quality. The developed analytical method has been validated according to in-house validation requirements. R(2) was better than 0.9990 within the range [0-100μgkg(-1)], the trueness was 4.2%. Repeatability and within-laboratory reproducibility ranged from 7.5% to 19.0% and 2.5% to 12.2%, respectively, at 0.5 and 5.0μgkg(-1) depending on the matrices tested for. The detection and quantification limits were 0.03 and 0.10μgkg(-1), respectively. The reporting limit was 0.35μgkg(-1), taking into account the mean of the laboratory background contamination. The global uncertainty was 22.2% at 95% confidence interval.

Detection and identification of anabolic steroids in bovine urine by gas chromatography—mass spectrometry

Abstract Within the scope of the national plan for hormone control in France, a study was made to develop a system for the control of the illegal use of anabolic steroids for fattening purposes in animal production. A screening procedure for these residues in bovine urine was developed, based on C18 solid-phase extraction, silica gel purification and gas chromatographic—mass spectrometric analysis with selected ion monitoring. All the method parameters are discussed, especially the enzymatic and chemical hydrolysis steps and the choice of derivatives.