Oral (S)-ketamine for treatment-resistant depression undergoes extensive first-pass metabolism, yielding low parent drug but high levels of active metabolites like (S)-norketamine. Using data from 17 healthy participants in a crossover trial, researchers developed a population PK model linking (S)-ketamine and (S)-norketamine concentrations to subjective 'Feeling High' scores. A significant relationship was found for (S)-norketamine alongside (S)-ketamine, though model variance was high. The analysis suggests that (S)-norketamine, not (S)-ketamine itself, primarily drives subjective effects after oral administration and may contribute to antidepressant effects in patients.
A single intravenous dose of S-ketamine produced acute and delayed effects on brain activity and motor cortex excitability that lasted up to seven days in 16 healthy adults. Intravenous S-ketamine reduced motor-evoked potential amplitude acutely and caused a sustained weakening of long-interval intracortical inhibition, which followed a linear relationship with drug concentration. Transcranial magnetic stimulation combined with electroencephalography showed acute changes in brain electrical activity across all treatments, but delayed changes only after intravenous and high-dose oral S-ketamine. Electroencephalography revealed acute decreases in alpha, beta, and delta power with eyes closed, and sustained increases in delta power with eyes open, the latter also showing a linear concentration-effect relationship. These delayed pharmacodynamic effects are distinct from acute effects and may help explain S-ketamine's antidepressant action.