Adam Clarke scite author profile

Detection of androgenic-anabolic steroid abuse in equine sports requires knowledge of the drug's metabolism in order to target appropriate metabolites, especially where urine is the matrix of choice. Studying 'designer' steroid metabolism is problematic since it is difficult to obtain ethical approval for in vivo metabolism studies due to a lack of toxicological data. In this study, the equine in vitro metabolism of eight steroids available for purchase on the Internet is reported; including androsta-1,4,6-triene-3,17-dione, 4-chloro,17α-methyl-androsta-1,4-diene-3,17β-diol, estra-4,9-diene-3,17-dione, 4-hydroxyandrostenedione, 20-hydroxyecdysone, 11-keto-androstenedione, 17α-methyldrostanolone, and tetrahydrogestrinone. In order to allow for retrospective analysis of sample testing data, the use of a high-resolution (HR) accurate-mass Thermo LTQ-Orbitrap liquid chromatography-mass spectrometry (LC-MS) instrument was employed for metabolite identification of underivatized sample extracts. The full scan LC-HRMS Orbitrap data were complimented by LC-HRMS/MS and gas-chromatography-mass spectrometry (GC-MS) experiments in order to provide fragmentation information and to ascertain whether GC-MS was capable of detecting any metabolite not detected by LC-HRMS. With the exception of 20-hydroxyecdysone, all compounds were found to be metabolized by equine liver S9 and/or microsomes. With the exception of 17α-methyldrostanolone, which produced metabolites that could only be detected by GC-MS, the metabolites of all other compounds could be identified using LC-HRMS, thus allowing retrospective analysis of previously acquired full-scan data resulting from routine equine drug testing screens. In summary, while in vitro techniques do not serve as a replacement for more definitive in vivo studies in all situations, their use does offer an alternative in situations where it would not be ethical to administer untested drugs to animals.

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Validation of a Quantitative Multi-Residue Urinary Assay for the Detection of Androgen, Oestrogen and Progestagen Abuse in the Bovine

Scarth

Clarke

Hands

et al. 2009

Chroma

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Comparative in vitro metabolism of the ‘designer’ steroid estra-4,9-diene-3,17-dione between the equine, canine and human: Identification of target metabolites for use in sports doping control

et al. 2010

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Detection of endogenous steroid abuse in cattle: results from population studies in the UK

Scarth¹,

Clarke²,

Teale³

et al. 2011

Food Additives & Contaminants: Part A

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The use of steroids as growth-promoting agents in food production is banned under European Union legislation. Detecting the abuse of testosterone, nandrolone, boldenone, oestradiol and progesterone is complicated by the fact that these steroids are known to be endogenous in certain situations. In this study, the concentrations of characteristic metabolites of each of these steroids were quantified in populations of untreated steers and heifers. Steroid concentration population data were then used by a statistical model (the Chebyshev inequality) to produce threshold concentrations for screening and confirming the abuse of these steroids in steer and non-pregnant heifer urine. In addition to thresholds based on testing one animal (a '1 out of 1' approach), new methods based on testing multiple animals from a herd (a 'y out of n' approach) allowed threshold concentrations to be significantly reduced and hence false compliances to be minimised. In the majority of cases, the suggested thresholds were found to be capable of confirming the abuse of endogenous steroids in steers and heifers. In the case of oestradiol abuse in the female, however, confirmation based on a threshold is not possible and alternative methods such as gas chromatography-combustion-isotope ratio mass spectrometry are required. In addition to the steer and heifer populations, a small number of pregnant animals were also tested, yielding insights into the biosynthetic pathways of some of the steroids.

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Synthetic Route Design of AZD4635, an A_2AR Antagonist

Littleson

Campbell

Clarke

et al. 2019

Org. Process Res. Dev.

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The AstraZeneca approach to synthetic Route Design is exemplified through our AZD4635 chemical development program. The identification of possible new route concepts is presented, as well as their subsequent prioritization for practical exploration based on project objectives. Selected ideas were tested to demonstrate proof of concept for the bond formation strategy and, where successful, were fed into a decision tool based on key SELECTion principles.

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Adam Clarke

The use of in vitro technologies and high‐resolution/accurate‐mass LC‐MS to screen for metabolites of ‘designer’ steroids in the equine

Validation of a Quantitative Multi-Residue Urinary Assay for the Detection of Androgen, Oestrogen and Progestagen Abuse in the Bovine

Comparative in vitro metabolism of the ‘designer’ steroid estra-4,9-diene-3,17-dione between the equine, canine and human: Identification of target metabolites for use in sports doping control

Detection of endogenous steroid abuse in cattle: results from population studies in the UK

Synthetic Route Design of AZD4635, an A_2AR Antagonist

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Adam Clarke

The use of in vitro technologies and high‐resolution/accurate‐mass LC‐MS to screen for metabolites of ‘designer’ steroids in the equine

Validation of a Quantitative Multi-Residue Urinary Assay for the Detection of Androgen, Oestrogen and Progestagen Abuse in the Bovine

Comparative in vitro metabolism of the ‘designer’ steroid estra-4,9-diene-3,17-dione between the equine, canine and human: Identification of target metabolites for use in sports doping control

Detection of endogenous steroid abuse in cattle: results from population studies in the UK

Synthetic Route Design of AZD4635, an A2AR Antagonist

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Product

Resources

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Synthetic Route Design of AZD4635, an A_2AR Antagonist