The detection and identification of drugs to demonstrate the use of illicit substances has long since been achieved through the collection and analysis of bodily fluids such as urine or blood. However with the inconvenience and invasiveness of collecting bodily fluids from people combined with the risks associated with handling biological fluids, scientists have examined alternative matrices for the detection of drug abuse.
In recent years researchers have demonstrated the possibility of detecting drugs in a less invasive manner, using only a fingerprint. In a recent study published in the Journal of Analytical Toxicology, researchers at the University of Surrey have developed a mass spectrometry-based technique to not only detect illicit drugs in fingerprints, but also differentiate between drug use and drug contact.
Fingerprints were collected from recent drug users undergoing treatment at a drug rehabilitation centre, specifically those who had taken heroin or cocaine in the last 24 hours. Fingerprints were collected both before and after thorough handwashing, with the aim of establishing whether drugs could be detected from both the surface of the hands but also in sweat excreted by the participants. Fingerprint samples were also collected from non-drug users who had simply handled heroin to further establish the detectable differences between those who have used or handled drugs. The fingerprints collected were analysed by liquid chromatography-high resolution mass spectrometry, with a focus on both the drugs and their metabolites (for instance 6-monoacetylmorphine, a compound formed in the body following heroin use).
The experiment successfully detected heroin or its metabolites in every scenario, even if an individual had washed their hands prior to fingerprint collection. However in some instances, the process of hand-washing removed all detectable traces of the drugs, such as in the case of morphine, acetylcodeine and noscapine. Importantly, the technique was able to distinguish between those who had handled illicit drugs and those who had actually taken them, due to the presence of metabolites only formed in the body following drug use. Furthermore, the research demonstrated that it was also possible to detect heroin in the fingerprints of someone who had simply shaken hands with another person who had handled heroin. This highlights an essential factor should such techniques ever become operational in the detection of drug use, stressing the importance of handwashing prior to fingerprint collection to ensure any drugs detected are the result of drug use rather than inadvertent contact with illicit drugs.
The ability to detect drugs in fingerprint could aid legal investigations in a number of ways. Firstly, by demonstrating drug use in known individuals through the analysis of their fingerprints. And secondly, by analysing fingerprints recovered from crime scenes to indicate a person of interest has recently used or handled illicit drugs, potentially guiding police investigations. The full study was published in the Journal of Analytical Toxicology.
Catia Costa, Mahado Ismail, Derek Stevenson, Brian Gibson, Roger Webb, Melanie Bailey, Distinguishing between Contact and Administration of Heroin from a Single Fingerprint using High Resolution Mass Spectrometry, Journal of Analytical Toxicology. https://doi.org/10.1093/jat/bkz088