Ludovic Bailly-Chouriberry scite author profile

Doping control is a main priority for regulatory bodies of both the horse racing industry and the equestrian sports. Urine and blood samples are screened for the presence of hundreds of forbidden substances including anabolic-androgenic steroids (AASs). Based on the suspected endogenous origin of some AASs, with β-boldenone as the most illicit candidate, this study aimed to improve the knowledge of the naturally present AAS in horse urine. To this extent, a novel ultra high-performance liquid chromatography-tandem mass spectrometry (UHPLC-MS/MS) method was developed and validated according to the Association of Official Racing Chemists (AORC) and European Commission (EC) guidelines, proving the power of this new method. Low limits of detection (0.2 ng/mL), good reproducibility (percentage of standard deviation (%RSD) < 10%), high recovery (94.6 to 117.1%), selectivity and specificity, and a linear response (confirmed with R(2) > 0.99 and lack-of-fit analysis) were obtained for all included AASs. With this method, urine samples of 105 guaranteed untreated horses (47 geldings, 53 mares, and 5 stallions serving as a control) were screened for β-boldenone and five related natural steroids: androstadienedione (ADD), androstenedione (AED), alpha-testosterone (αT), beta-testosterone (βT), and progesterone (P). Progesterone, β-testosterone, and α-testosterone were detected in more than half of the horses at low concentrations (<2 ng/mL). Occasionally, not only testosterone and progesterone but also low concentrations of AED, ADD, and boldenone (Bol) were found (0.5-5 ng/mL). Graphical Abstract A sensitive, new and fully validated UHPLC-MS/MS method has been developed that is able to quantify low levels of anabolic-androgenic steroids naturally present in urine of untreated horses (mares and geldings).

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Differentiation of boldenone administration from ex vivo transformation in the urine of castrated male horses

Viljanto¹,

Kaabia²,

Taylor³

et al. 2022

Drug Testing and Analysis

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Boldenone is an anabolic‐androgenic steroid that is prohibited in equine sports. However, in certain situations, it is endogenous or is believed to be formed by microbes in urine, and therefore, an approach for the differentiation is required. Following the identification of Δ1‐progesterone and 20(S)‐hydroxy‐Δ1‐progesterone as potential biomarkers of microbial activity, the presence of six steroids was investigated in the postrace urine of castrated male horses (geldings, n = 158). In line with endogenous findings from several other species when ultrasensitive methods are employed, boldenone was detected at low concentrations in all urine samples (27.0–1330 pg/ml). Furthermore, testosterone and androstenedione were detected in 157 samples (≤12,400 and 944 pg/ml, respectively), boldienone in two samples (≤22.0 pg/ml) and 20(S)‐hydroxy‐Δ1‐progesterone in 20 samples (≤66.0 pg/ml). Δ1‐Progesterone was not detected in any population samples analysed on arrival at the laboratory. The ex vivo transformation of boldienone, boldenone, androstenedione, Δ1‐progesterone and 20(S)‐hydroxy‐Δ1‐progesterone was induced following the storage of urine samples at room temperature for 7 days but not after refrigeration. Because the administration of inappropriately stored feed sources also resulted in an increase in 20(S)‐hydroxy‐Δ1‐progesterone concentrations, a biomarker approach to distinguish steroid administrations was proposed. In situations where the presence of boldenone would exceed a proposed action limit, the presence of Δ1‐progesterone and 20(S)‐hydroxy‐Δ1‐progesterone would be investigated. If either Δ1‐progesterone or 20(S)‐hydroxy‐Δ1‐progesterone would exceed 50 and 100 pg/ml, respectively, for instance, then this would indicate ex vivo transformation or consumption of altered feed rather than steroid administration.

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Use of benchtop exactive high resolution and high mass accuracy orbitrap mass spectrometer for screening in horse doping control

Moulard¹,

Bailly-Chouriberry²,

Boyer³

et al. 2011

Analytica Chimica Acta

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A new analytical method based on anti-EPO monolith column and LC-FAIMS-MS/MS for the detection of rHuEPOs in horse plasma and urine samples

Bailly-Chouriberry¹,

Cormant²,

Garcia³

et al. 2012

Analyst

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Recombinant human erythropoietin (rHuEPO) is a 30-34 kDa glycoprotein banned by the racing authorities. For some years this molecule has been detected in race horses in USA and in Europe, and even in racing camels. Although direct methods to differentiate horse endogenous EPO and rHuEPO have been developed either by LC-MS/MS or by isoelectric focusing (IEF) with double-blotting, the short confirmation time of such prohibited hormone in plasma remains a problem for horseracing doping control laboratories. In order to improve the rHuEPOs confirmation process in horse plasma or urine in terms of reliability and delay, a small anti-EPO monolith membrane contained in a disposable column (anti-EPO monolith column) has been successfully used and validated (n = 10). This new sample preparation, combined with LC-FAIMS-MS/MS, has been performed on plasma and urine samples collected from one horse which received an Eprex® treatment during six consecutive days and a second one with a single injection of Aranesp®. This inventive technology allowed the possibility to confirm the presence of rHuEPO within one day with a limit of detection validated for both urine and plasma at 250 pg mL(-1) by means of a disposable, ready to use immunoaffinity column. The lower limit of detection (LLOD) obtained for each matrix was 100 pg mL(-1). These results provide an important improvement for rHuEPO doping control in horseracing especially the possibility to confirm these banned molecules in both matrices, urine and plasma, with a confidence of two specific target peptides.

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In vitro simulation of the equine hindgut as a tool to study the influence of phytosterol consumption on the excretion of anabolic–androgenic steroids in horses

Decloedt

Bailly-Chouriberry²,

Bussche

et al. 2015

The Journal of Steroid Biochemistry and Molecular Biology

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