Quantitative urine confirmatory testing for synthetic cannabinoids in randomly collected urine specimens
Abstract
Synthetic cannabinoid intake is an ongoing health issue worldwide, with new compounds continually emerging, making drug testing complex. Parent synthetic cannabinoids are rarely detected in urine, the most common matrix employed in workplace drug testing. Optimal identification of synthetic cannabinoid markers in authentic urine specimens and correlation of metabolite concentrations and toxicities would improve synthetic cannabinoid result interpretation. We screened 20 017 randomly collected US military urine specimens between July 2011 and June 2012 with a synthetic cannabinoid immunoassay yielding 1432 presumptive positive specimens. We analyzed all presumptive positive and 1069 negative specimens with our qualitative synthetic cannabinoid liquid chromatography‐tandem mass spectrometry (LC‐MS/MS) method, which confirmed 290 positive specimens. All 290 positive and 487 randomly selected negative specimens were quantified with the most comprehensive urine quantitative LC‐MS/MS method published to date; 290 specimens confirmed positive for 22 metabolites from 11 parent synthetic cannabinoids. The five most predominant metabolites were JWH‐018 pentanoic acid (93%), JWH‐N‐hydroxypentyl (84%), AM2201 N‐hydroxypentyl (69%), JWH‐073 butanoic acid (69%), and JWH‐122 N‐hydroxypentyl (45%) with 11.1 (0.1‐2,434), 5.1 (0.1‐1,239), 2.0 (0.1‐321), 1.1 (0.1‐48.6), and 1.1 (0.1‐250) µg/L median (range) concentrations, respectively.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Sep 17, 2014
- Source ID
- 10.1002/dta.1709
Entities
People
- Adarsh Gandhi
- Ariane Wohlfarth
- Karl B. Scheidweiler
- Kevin L. Klette
- Marilyn A. Huestis
- Marisol S. Castaneto
- Thomas M. Martin
Organizations
- National Institute on Drug Abuse
- United States Department of Defense