Journal of analytical toxicology
October 12, 2020
Kelly Francisco da Cunha, Karina Diniz Oliveira, Marilyn A Huestis et al.
73 citations
A new LC-MS-MS method can detect 104 drugs of abuse, including synthetic cannabinoids, cathinones, fentanyl analogues, and other psychoactive compounds, in oral fluid samples collected with a Quantisal™ device. The method uses a 13.5-minute run and achieves limits of detection as low as 0.05 ng/mL for most analytes, though some require higher concentrations. Matrix effects are generally around 60%, and recoveries range from 47.2% to 127%. Drug stability is best at -20°C, but even frozen, some synthetic cannabinoids degrade more than 20% over 90 days. The method was successfully tested on seven authentic samples, confirming 17 different analytes.
Drug testing and analysis
March 1, 2021
Rafael Lanaro, Sueli Moreira Mello, Kelly Francisco da Cunha et al.
10 citations
After consuming ayahuasca, alkaloids such as DMT and β-carbolines reach higher peak concentrations and overall exposure in saliva than in serum, while their mean residence time is 1.5 to 3 times longer in serum. A statistical model suggests that serum concentrations can be predicted from saliva concentrations, though individual variability is large. Saliva offers a fast, noninvasive way to detect these alkaloids and could aid in identifying recreational use of similar compounds that pose intoxication risks.
Journal of Analytical Toxicology
August 29, 2023
Marilia Santoro Cardoso, Kelly Francisco da Cunha, Izabelly Geraldes Silva et al.
3 citations
Psilocin, the active compound produced when psilocybin from magic mushrooms is ingested, is unstable and oxidizes quickly, making its detection in biological samples challenging. A new method using liquid chromatography–tandem mass spectrometry was developed and validated to measure psilocin in oral fluid. The method requires only 100 microliters of sample, achieves detection limits of 0.05 ng/mL, and performs reliably with low bias and imprecision. Psilocin was stable in oral fluid at −20°C for 24 hours, at 4°C for 72 hours, and at 24°C for 24 hours, but degraded after three freeze-thaw cycles. Analysis of five authentic samples from party attendees found psilocin concentrations between 0.08 and 36.4 ng/mL, marking the first report of such measurements in oral fluid.