Saliva test to detect GHB and alcohol poisonings
Scientists working at Loughborough University and the University of Cordoba, Spain, have developed a new method for the rapid diagnosis of poisoning in apparently drunk patients.
The saliva-based test offers the potential to screen for poisons commonly associated with the cheap or imitation manufacture of alcohol, and γ-hydroxybutyric acid, the so-called ‘date rape’ drug GHB.
The results are published today (Friday 8th January) in the Journal of Breath Research.
“Many people attending accident and emergency departments have some kind of alcohol-related issue, particularly at the weekends,” explains Paul Thomas, Professor of Analytical Science at Loughborough University’s Department of Chemistry, and co-author of the paper. “We’re aiming to develop a test that is as simple as taking temperature with a thermometer that detects when patients are more than just drunk.”
The researchers developed a test which detects the presence of methanol, ethanol, ethylene glycol, propan 1,3 glycol and γ-hydroxybutyric acid.
These chemicals were added to ‘fresh’ saliva collected from three healthy volunteers.
“It was particularly challenging stabilising concentrations low enough to be realistic simulations of what you’d expect to find clinically,” adds Professor Thomas. “But we’ve managed to make some sensitive measurements - which is quite pleasing as saliva is a particularly complicated material to work with due to the presence of bacteria and their metabolites from the mouth, and ammonia at high enough levels to change the chemistry of the measurement system unless carefully managed.”
Once the chemicals were added to the fresh saliva the researchers used an oral sampler to extract methanol, ethanol, ethylene glycol, 1,3-propandiol and γ-hydroxybutyric acid. The compounds were detected using gas chromatography-differential mobility spectrometry.
“We were surprised at the ease at which we could detect γ-hydroxybutyric acid,” continues Professor Thomas. “It’s both a polar and acidic molecule – but it turned out to be easy to detect, even at the low concentrations we were studying.”
The researchers are now working on running trials of their test in a clinical setting, on patients in emergency departments.
“We’re hoping to demonstrate that this test will be simple, effective and useful for clinicians to use,” concludes Professor Thomas. “I think this is a very exciting area of research and in the next few years there will be a host of simple tests on breath, skin and saliva that will aid with diagnosis in hospitals.”