Article de Périodique
Air monitoring for illegal drugs including new psychoactive substances: A review of trends, techniques and thermal degradation products (2021)
Année
2021
Page(s) :
1078-1094
Sous-type de document :
Revue de la littérature
Langue(s) :
Anglais
Refs biblio. :
112
Domaine :
Drogues illicites
Discipline :
PRO (Produits, mode d'action, méthode de dépistage / Substances, action mode, screening methods)
Thésaurus mots-clés
PRODUIT ILLICITE
;
SURVEILLANCE EPIDEMIOLOGIQUE
;
DROGUES DE SYNTHESE
;
ANALYSE CHIMIQUE
;
METHODE
;
DEPISTAGE
;
PHENOMENE EMERGENT
Autres mots-clés
Résumé :
The detection of illicit psychotropic substances in both indoor and outdoor air is a challenging analytical discipline, and the data from such investigation may provide intelligence in a variety of fields. Applications of drug monitoring in air include providing data on national and international drug consumption trends, as monitored by organisations such as the European Monitoring Centre for Drugs and Drug Addiction (EMCDDA) and the United Nations Office on Drugs and Crime (UNODC). Air monitoring enables mapping of illicit drug manufacturing, dealing or consumption in cities and the identification of emergent compounds including the recent proliferation of new psychoactive substances (NPS). The rapid spread of NPS has changed the global drug market with greater diversity and dynamic spread of such compounds over several nations. This review provides an up to date analysis of key thematic areas within this analytical discipline. The process of how illicit psychotropic substances spread from emission sources to the atmosphere is considered alongside the sampling and analytical procedures involved. Applications of the technique applied globally are reviewed with studies ranging from the analysis of individual dwellings through to major international air-monitoring campaigns providing evidence on global drug trends. Finally, we consider thermal breakdown products of illicit psychotropic substances including NPS that are released upon heating, combustion or vaping and related potential for exposure to these compounds in the air.
Affiliation :
Faculty of Science and Technology, Bournemouth University, Dorset, UK
Cote :
Abonnement
Historique