Skip to main content

Research Repository

Advanced Search

Photochemical fingerprinting is a sensitive probe for the detection of synthetic cannabinoid receptor agonists; toward robust point-of-care detection

Andrews, Rachael C.; May, Benedict; Hernández, Federico J.; Cozier, Gyles E.; Townsend, Piers A.; Sutcliffe, Oliver B.; Haines, Tom S. F.; Freeman, Tom P.; Scott, Jennifer; Husbands, Stephen M.; Blagbrough, Ian S.; Bowman, Richard W.; Lewis, Simon E.; Grayson, Matthew N.; Crespo-Otero, Rachel; Carbery, David R.; Pudney, Christopher R.

Photochemical fingerprinting is a sensitive probe for the detection of synthetic cannabinoid receptor agonists; toward robust point-of-care detection Thumbnail


Authors

Rachael C. Andrews

Benedict May

Federico J. Hernández

Gyles E. Cozier

Profile Image

Dr Piers Townsend Piers.Townsend@uwe.ac.uk
Lecturer in Environmental and Forensic Toxicology

Oliver B. Sutcliffe

Tom S. F. Haines

Tom P. Freeman

Jennifer Scott

Stephen M. Husbands

Ian S. Blagbrough

Richard W. Bowman

Simon E. Lewis

Matthew N. Grayson

Rachel Crespo-Otero

David R. Carbery

Christopher R. Pudney



Abstract

With synthetic cannabinoid receptor agonist (SCRA) use still prevalent across Europe and structurally advanced generations emerging, it is imperative that drug detection methods advance in parallel. SCRAs are a chemically diverse and evolving group, which makes rapid detection challenging. We have previously shown that fluorescence spectral fingerprinting (FSF) has the potential to provide rapid assessment of SCRA presence directly from street material with minimal processing and in saliva. Enhancing the sensitivity and discriminatory ability of this approach has high potential to accelerate the delivery of a point-of-care technology that can be used confidently by a range of stakeholders, from medical to prison staff. We demonstrate that a range of structurally distinct SCRAs are photochemically active and give rise to distinct FSFs after irradiation. To explore this in detail, we have synthesized a model series of compounds which mimic specific structural features of AM-694. Our data show that FSFs are sensitive to chemically conservative changes, with evidence that this relates to shifts in the electronic structure and cross-conjugation. Crucially, we find that the photochemical degradation rate is sensitive to individual structures and gives rise to a specific major product, the mechanism and identification of which we elucidate through density-functional theory (DFT) and time-dependent DFT. We test the potential of our hybrid "photochemical fingerprinting"approach to discriminate SCRAs by demonstrating SCRA detection from a simulated smoking apparatus in saliva. Our study shows the potential of tracking photochemical reactivity via FSFs for enhanced discrimination of SCRAs, with successful integration into a portable device.

Citation

Andrews, R. C., May, B., Hernández, F. J., Cozier, G. E., Townsend, P. A., Sutcliffe, O. B., …Pudney, C. R. (2023). Photochemical fingerprinting is a sensitive probe for the detection of synthetic cannabinoid receptor agonists; toward robust point-of-care detection. Analytical Chemistry, 95(2), 703–713. https://doi.org/10.1021/acs.analchem.2c02529

Journal Article Type Article
Acceptance Date Dec 20, 2022
Online Publication Date Jan 4, 2023
Publication Date Jan 4, 2023
Deposit Date Jan 20, 2023
Publicly Available Date Jan 20, 2023
Journal Analytical Chemistry
Print ISSN 0003-2700
Electronic ISSN 1520-6882
Publisher American Chemical Society
Peer Reviewed Peer Reviewed
Volume 95
Issue 2
Pages 703–713
DOI https://doi.org/10.1021/acs.analchem.2c02529
Keywords Analytical Chemistry; Photochemical fingerprinting; synthetic cannabinoid receptor agonists; cannabinoid receptors; synthetic cannabinoid
Public URL https://uwe-repository.worktribe.com/output/10344516
Publisher URL https://pubs.acs.org/doi/full/10.1021/acs.analchem.2c02529
Additional Information The Supporting Information is available free of charge at
https://pubs.acs.org/doi/10.1021/acs.analchem.2c02529.

Files




You might also like



Downloadable Citations