Conclusions
The present methodology represents a fast, not expensive, wide-panel method for the analysis of more than 180 NPS by LC-MS/MS, which can be profitably applied both in a clinical context and in postmortem toxicology.
Methods
A protein-precipitation based LC-MS/MS method for the detection of more than 180 NPS was developed and validated by assessing the following parameters: selectivity, linearity, accuracy, precision, limit of detection (LOD) and of quantification (LOQ) recovery, and matrix effect. Then, the method was applied to real forensic samples.
Results
The method allowed the identification of 132 synthetic cannabinoids, 22 synthetic opioids, and 28 substances among synthetic cathinones, stimulants, and other drugs. Validation was successfully achieved for most of the compounds. Linearity was in the range of 0.25-10 ng/ml for synthetic cannabinoids and 0.25-25 ng/ml for other drugs. Accuracy and precision were acceptable according to international guidelines. Three cases tested positive for fentanyl and ketamine, in the setting of emergency room administration. Conclusions: The present methodology represents a fast, not expensive, wide-panel method for the analysis of more than 180 NPS by LC-MS/MS, which can be profitably applied both in a clinical context and in postmortem toxicology.