In adults with methamphetamine use disorder, mirtazapine reduced methamphetamine use by approximately two more days per month vs placebo, with no unexpected safety concerns.

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Main Outcomes and Measures The primary end point was the change in days of methamphetamine use in the past 28 days from baseline to week 12. Secondary end points were depression, insomnia, HIV risk behavior, quality of life, and methamphetamine-negative oral fluid samples.

Results Of 344 participants randomized, 339 participants received the intervention (167 in the placebo group and 172 in the mirtazapine group). Mean (SD) age was 42.0 (8.6) years, 126 participants (37.2%) were female, and participants had used methamphetamine for a median (IQR) of 24 days (17−28) of the past 28 days at baseline. The mean reduction in days of methamphetamine use from baseline to week 12 was greater in the mirtazapine group (7.0 days of 28 days) than in the placebo group (4.8 days of 28 days; mean difference, 2.2 days; 95% CI, −4.2 to −0.2 days; P = .02). More participants in the mirtazapine group reported drowsiness (47% vs 33%) and weight gain (10% vs 3%). Forty participants (23%) discontinued mirtazapine due to adverse events compared to 25 participants (15%) in the placebo group. No significant effects of mirtazapine on secondary end points were found.

Conclusions and Relevance In this parallel-group randomized clinical trial, mirtazapine delivered in routine clinical practice reduced methamphetamine use in adults with methamphetamine use disorder. No unexpected safety concerns delivering mirtazapine in this setting were found; this finding has important clinical implications in the absence of any approved pharmacotherapies for methamphetamine use disorder.

[Brain stimulation] Taquet et al.: “The effect of motor cortex stimulation on finger flexion is frequency dependent.”

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We conducted a prospective study in human patients undergoing awake craniotomies to examine whether the effects of cortical stimulation in hand primary motor cortex (M1) can be frequency dependent and inhibitory.

In 11 participants undergoing clinically indicated awake craniotomies, we delivered bursts of 1–333 Hz stimulation during a finger-flexion task. Synchronized electrocorticography (ECoG), finger joint kinematics, electromyography (EMG), and video were recorded.

Inability to flex the index finger during subthreshold stimulation was noted in 3 participants at frequencies 250 Hz when the electrodes were in locations that induced extension of the forefinger at higher amplitudes. Other than these trials, all stimulation events either induced muscle contractions or had no measurable effect.

A quick scan of your resting brain waves might hold the secret to predicting how intensely you will react to psilocybin, offering doctors a potential new tool for personalizing psychedelic therapy.

Vaccination with a higher dose of the influenza vaccine may reduce the risk of developing dementia among older adults.