Return of the lysergamides. Part III: Analytical characterization of N6-ethyl-6-norlysergic acid diethylamide (ETH-LAD) and 1-propionyl ETH-LAD (1P–ETH-LAD)
S. Brandt, P. Kavanagh, F. Westphal, S. Elliott, J. Wallach, A. Stratford, D. Nichols, A. Halberstadt
Drug Testing and Analysis May 10, 2017 DOI: 10.1002/dta.2196 via Semantic Scholar
Summary
Two new lysergamides, ETH-LAD and 1P-ETH-LAD, were characterized using multiple analytical techniques including GC-MS, mass spectrometry, infrared analysis, HPLC, and NMR. 1P-ETH-LAD had not previously been described in scientific literature. When incubated with human serum at 37°C, 1P-ETH-LAD converted to ETH-LAD over time, suggesting it may act as a pro-drug. 1P-ETH-LAD remained detectable in serum after 24 hours. This work provides analytical data for clinicians and toxicologists who may encounter these substances on the new psychoactive substances market.
Study at a glance
Abstract
The psychoactive properties of lysergic acid diethylamide (LSD) have fascinated scientists across disciplines and the exploration of other analogues and derivatives has been motivated by deepening the understanding of ligand-receptor interactions at the molecular level as well as by the search for new therapeutics. Several LSD congeners have appeared on the new psychoactive substances (NPS) market in the form of blotters or powders. Examples include 1-propionyl-LSD (1P–LSD), AL-LAD, and LSZ. The absence of analytical data for novel compounds is a frequent challenge encountered in clinical and toxicological investigations. Two newly emerging lysergamides, namely N6-ethyl-6-norlysergic acid diethylamide (ETH-LAD) and 1P–ETH-LAD, were characterized by gas chromatography–mass spectrometry (GC–MS), low and high mass accuracy electrospray MS(/MS), GC solid-state infrared analysis, high performance liquid chromatography diode array detection as well as nuclear magnetic resonance spectroscopy. Limited analytical data for ETH-LAD were previously available, whereas information about 1P–ETH-LAD has not previously been encountered in the scientific literature. This study extends the characterization of lysergamides distributed on the NPS market, which will help to make analytical data available to clinicians, toxicologists, and other stakeholders who are likely to encounter these substances. The analysis of a test incubation of 1P–ETH-LAD with human serum at 37°C by LC single quadrupole MS at various time points (0–6 h, once per hour and one measurement after 24 h) revealed the formation of ETH-LAD, suggesting that 1P–ETH-LAD might serve as a pro-drug. 1P–ETH-LAD was still detectable in serum after 24 h.