Title:The Current Status of Sweat Testing For Drugs of Abuse: A Review
Volume: 20
Issue: 4
Author(s): N. De Giovanni and N. Fucci
Affiliation:
Keywords:
Sweat testing, drugs of abuse, unconventional matrix, biological matrix, drugs of abuse intake, eccrine, apocrine glands, skin dermis, secretory canals, hair follicles
Abstract: Sweat is an alternative biological matrix useful to detect drugs of abuse intake. It is produced by eccrine and apocrine glands
originating in the skin dermis and terminating in secretory canals that flow into the skin surface and hair follicles. Since many years it has
been demonstrated that endogenous and exogenous chemicals are secreted in this biological sample hence its collection and analysis
could show the past intake of xenobiotics. From the seventies the excretion of drugs of abuse has been investigated in human skin excretion;
later in nineties forensic scientists began to experiment some techniques to trap sweat for analyses. Even if the use of skin excretions
for drug testing has been restricted mainly by difficulties in sample recovery, the marketing of systems for the sample collection has allowed
successful sweat testing for several drugs of abuse. In the recent years sweat testing developed a noninvasive monitoring of drug
exposure in various contexts as criminal justice, employment and outpatient clinical settings. This paper provides an overview of literature
data about sweat drug testing procedures for various xenobiotics especially cocaine metabolites, opiates, cannabis and amphetamines.
Issues related to collection, analysis and interpretation of skin excretions as well as its advantages and disadvantages are discussed.
Moreover the chance to apply the technique to some particular situation such as workplace drug testing, drivers, doping or prenatal
diagnosis, the comparison between sweat and other non conventional matrices are also reviewed. According to literature data the
analysis of sweat may be usefully alternative for verifying drug history and for monitoring compliance.