Quantification of psilocin in human whole blood using liquid chromatography–tandem mass spectrometry (LC–MS/MS)

Journal of Forensic Sciences  – December 22, 2023

Source: OpenAlex

Summary

Psilocybin, an **alkaloid** from magic mushrooms, shows therapeutic promise, yet quantifying its active form, psilocin, in **whole blood** has been challenging. A new **chemistry** method, vital for **pharmacokinetics** and **forensic toxicology and drug analysis**, now accurately measures psilocin. This **Liquid chromatography–mass spectrometry** technique, employing **tandem mass spectrometry**, achieved over **89% recovery** efficiency and a linearity range of **0.7–200 ng/mL**. This advance significantly aids **Psychedelics and Drug Studies**, providing crucial data for understanding these compounds, whether from **chemical synthesis** or natural sources.

Abstract

Abstract There has been burgeoning interest in psilocybin‐use for the treatment of various neurological and neurodegenerative diseases. Psilocybin is mistakenly perceived as the principal pharmacologically active compound due to its high concentrations found in magic mushrooms; however, it is the prodrug of psilocin. Despite the expanding body of clinical research seeking to understand the pharmacodynamic/pharmacokinetic properties of psilocin, and its role in inducing dramatic changes to cognitive function, there has not been a corresponding increase in the development of sensitive analytical methods that can quantify psilocin in different biological fluids. Existing analytical methods have been developed using plasma, serum, and urine as the matrix of choice, but with the unknown blood‐to‐plasma ratio of psilocin, any pharmacokinetic conclusions drawn solely on plasma data may be misleading. Thus, the main objective of this study is to develop the first analytical method that utilizes SPE and LC–MS/MS to quantify psilocin in human whole blood. The SPE procedure yielded a high recovery efficiency (≥89%) with minimal matrix effects. The method was validated according to ANSI/ASB 036 guidelines. Linearity was between 0.7–200 ng/mL and encompassed previously reported ranges found in plasma/serum. Bias, within‐ and between‐run precision for all quality controls met ANSI/ASB 036 acceptability criteria. Endogenous/exogenous interferences and carryover were negligible. Psilocin stability was assessed at 4°C over 48 h and was considered stable. Although a proof‐of‐concept study will need to be performed to characterize the method, this analytical workflow was able to detect and quantify psilocin in human whole blood at low limits of quantification.

Comments

No comments yet.

Log in to comment