Molecular psychiatry
April 1, 2025
Mihai Avram, Lydia Fortea, Lea Wollner et al.
26 citations
Lysergic acid diethylamide (LSD), d-amphetamine, and MDMA each reduce the integrity (within-network connectivity) of several brain networks, with LSD uniquely reducing integrity in the default-mode network. Contrary to expectations, amphetamines reduced integrity in more networks than LSD. LSD produced more pronounced decreases in between-network segregation, while amphetamines also induced increases. Seed-based connectivity mostly increased between networks across all substances, with LSD showing stronger effects than both amphetamines. All substances decreased global connectivity in visual areas, but LSD specifically increased global connectivity in the basal ganglia and thalamus. These findings clarify distinctive neurobiological effects of psychedelics and support further investigation of their therapeutic potential.
Biological psychiatry. Cognitive neuroscience and neuroimaging
May 1, 2024
Mihai Avram, Felix Müller, Katrin H Preller et al.
13 citations
In a double-blind, placebo-controlled, crossover study with 25 healthy participants, LSD, MDMA, and d-amphetamine all increased effective connectivity from the thalamus to specific unimodal cortices while reducing the influence of those cortices back onto the thalamus, indicating stronger bottom-up and weaker top-down information flow. For transmodal cortices, including parts of the salience network, amphetamines showed opposite effects. LSD uniquely increased effective connectivity from the thalamus to both unimodal and transmodal cortices, suggesting a breakdown in the hierarchical organization of brain activity. These findings refine models of how psychedelics alter brain connectivity.
Cell Reports Medicine
May 7, 2026
Mihai Avram, Aurore Menegaux, Felix Müller et al.
1 citation
Lysergic acid diethylamide (LSD) may alleviate depression by altering white matter microstructure in the brain, potentially reflecting enhanced neuroplasticity. In a clinical trial of 61 patients with major depressive disorder, those receiving moderate-to-high doses (100 μg then 200 μg) showed increased fractional anisotropy in several white matter tracts, including the internal and external capsule, sagittal stratum, and fornix/stria terminalis. These microstructural changes correlated with improvements in depressive symptoms measured at 2, 6, and 12 weeks. The findings suggest that LSD-induced white matter changes are linked to antidepressant effects.