Development and application of a highly sensitive LC-MS/MS method for simultaneous quantification of N,N-dimethyltryptamine and two of its metabolites in human plasma.

A highly sensitive LC-MS/MS method for the quantification of N,N-dimethyltryptamine (DMT) and its metabolites indole-3-acetic acid and DMT N-oxide in human plasma has been developed and validated. Chromatography was performed using a diphenyl column with gradient elution (0.1% formic acid in methanol/water). The mass spectrometer was operated in multiple reaction monitoring mode. A methanolic solution containing internal standards 2-methylindole 3-acetic acid and deuterated DMT, was added to plasma samples, followed by protein precipitation with acetonitrile. The samples were centrifuged and supernatants transferred to new tubes and evaporated to dryness before reconstitution in aqueous mobile phase. The method was validated with regards to accuracy, precision, sensitivity, selectivity, recovery, matrix effects, stability, carry-over and dilution integrity. The validated linear range was 0.25-200 nM for DMT and 15-250 nM for DMT N-oxide. For the endogenous compound indole-3-acetic acid a different approach was taken due to its significant presence in blank samples. The change in signal response from a blank sample was used when constructing the calibration curve with linearity demonstrated between elevations of 500-5000 nM above the blank. Applicability of the described method was demonstrated through analysis of plasma samples from healthy volunteers having received intravenous injections of DMT. The presented method for rapid and sensitive quantification of DMT and its metabolites in human plasma can be applied to future studies aiming to characterize DMT disposition and its relationship to immediate psychedelic or long-term antidepressive effects.

Neural correlates of the DMT experience assessed with multivariate EEG.

Studying transitions in and out of the altered state of consciousness caused by intravenous (IV) N,N-Dimethyltryptamine (DMT - a fast-acting tryptamine psychedelic) offers a safe and powerful means of advancing knowledge on the neurobiology of conscious states. Here we sought to investigate the effects of IV DMT on the power spectrum and signal diversity of human brain activity (6 female, 7 male) recorded via multivariate EEG, and plot relationships between subjective experience, brain activity and drug plasma concentrations across time. Compared with placebo, DMT markedly reduced oscillatory power in the alpha and beta bands and robustly increased spontaneous signal diversity. Time-referenced and neurophenomenological analyses revealed close relationships between changes in various aspects of subjective experience and changes in brain activity. Importantly, the emergence of oscillatory activity within the delta and theta frequency bands was found to correlate with the peak of the experience - particularly its eyes-closed visual component. These findings highlight marked changes in oscillatory activity and signal diversity with DMT that parallel broad and specific components of the subjective experience, thus advancing our understanding of the neurobiological underpinnings of immersive states of consciousness.