Rachel M Proctor scite author profile

JWH-250 is a synthetic cannabinoid. Its use is prohibited in equine sport according to the Association of Racing Commissioners International (ARCI) and the Fédération Équestre Internationale (FEI). A doping control method to confirm the presence of four JWH-250 metabolites (JWH-250 4-OH-pentyl, JWH-250 5-OH-pentyl, JWH-250 5-OH-indole, and JWH-250 N-pentanoic acid) in equine urine was developed and validated. Urine samples were treated with acetonitrile and evaporated to concentrate the analytes prior to the analysis by liquid chromatography-tandem mass spectrometry (LC-MS/MS). The chromatographic separation was carried out using a Phenomenex Lux ® 3 μm AMP column (150 x 3.0 mm). A triple quadrupole mass spectrometer was used for detection of the analytes in positive mode electrospray ionization using multiple reaction monitoring (MRM). The limits of detection, quantification, and confirmation for these metabolites were 25, 50, and 50 pg/mL, respectively. The linear dynamic range of quantification was 50-10000 pg/mL. Enzymatic hydrolysis indicated that JWH-250 4-OH-pentyl, JWH-250 5-OH-pentyl, and JWH-250 5-OH indole are highly conjugated whereas JWH-250 N-pentanoic acidis not conjugated. Relative retention time and product ion intensity ratios were employed as the criteria to confirm the presence of these metabolites in equine urine.The method was successfully applied to post-race urine samples collected from horses suspected of being exposed to JWH-250. All four JWH-250 metabolites were confirmed in these samples, demonstrating the method applicability for equine doping control analysis. KEYWORDSDoping control analysis, Equine urine, JWH-250 metabolites, LC-MS/MS

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Automated identification of unknown doping agents in confiscation samples by flow‐injection mass spectrometry and mass spectral library searches

Guan

Fay

Adreance

et al. 2023

Drug Testing and Analysis

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Rapid and accurate identification of unknown compounds within suspicious samples confiscated for sports doping control and law enforcement drug testing is critical, but such analyses are often conducted manually and can be time-consuming. Here, we report a methodology for automated identification of unknown substances in confiscation samples by rapid automatic flow-injection analysis on a liquid chromatography coupled to high-resolution mass spectrometry system and identifying unknown compounds with Compound Discoverer software. The developed methodology was validated by comparing the automated identification results with those obtained from manual syringe-infusion experiments and manual tandem mass spectral library searches. The automated methodology resulted in far higher throughput and remarkably shorter turnaround time for analysis when compared with manual procedures and, in most cases, yielded more compounds. As this is the first such report to the authors' knowledge, this methodology may potentially transform analysis of confiscated samples in sports doping control and law enforcement drug testing.

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Use of Liquid Chromatography--Tandem Mass Spectrometry to Quantify and Confirm the Fentanyl MetaboliteN-[1-(2-Phenethy-4-Piperidinyl)] Maloanilinic Acid in Equine Urine for Doping Control

You

Proctor

Haughan

et al. 2023

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Fentanyl, a powerful synthetic µ opioid receptor agonist, is banned in equine sports by the Association of Racing Commissioners International (ARCI) and the Fédération Équestre Internationale (FEI). The presence of fentanyl in equine blood has been confirmed during routine post-race screening for doping substances in the authors’ laboratory. While fentanyl can be detected and confirmed in blood, it is rapidly metabolized, and screening for the metabolite N-[1-(2-phenethy-4-piperidinyl)] maloanilinic (PMA) in equine urine is expected to allow for a longer detection time. In this study, a quantitative and confirmatory liquid chromatography-tandem mass spectrometry (LC-MS/MS) method was developed for PMA analysis in equine urine. PMA was extracted by solid phase extraction (SPE), separated on a C18 column and detected using a triple quadrupole mass spectrometer. The mass spectrometer was operated in positive-ion mode and multiple reaction monitoring (MRM) was used to monitor product ions m/z 188, m/z 281 and m/z 323. The method was validated for extraction recovery, matrix effect, specificity, sensitivity, precision and accuracy, carryover and processed sample stability in according to the guidelines of the U.S. Food and Drug Administration for bioanalysis. The limits of detection and quantification were 5 and 10 pg/mL, respectively. Linearity was obtained over the concentration range of 10-10,000 pg/mL. To confirm PMA in equine urine, LC retention time, diagnostic product ions (m/z 188, m/z 281 and m/z 323) and product ion ratio were used as the criterion. The lowest concentration for confirmatory analysis was validated at 50 pg/mL. The method was applied to measure the PMA concentrations in equine urine following intravenous administration of fentanyl to a research horse and has confirmed the presence of PMA in post-race urine samples. This method is a valuable addition to the arsenal of equine doping control methods to combat illegal doping and protect racehorse health.

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Rachel M Proctor

Use of high resolution/accurate mass full scan/data-dependent acquisition for targeted/non-targeted screening in equine doping control

Doping control analysis of four JWH‐250 metabolites in equine urine by liquid chromatography–tandem mass spectrometry

Automated identification of unknown doping agents in confiscation samples by flow‐injection mass spectrometry and mass spectral library searches

Use of Liquid Chromatography--Tandem Mass Spectrometry to Quantify and Confirm the Fentanyl MetaboliteN-[1-(2-Phenethy-4-Piperidinyl)] Maloanilinic Acid in Equine Urine for Doping Control

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