Journal of affective disorders
July 15, 2023
Matthew B Wall, Cynthia Lam, Natalie Ertl et al.
36 citations
Psilocybin-assisted therapy for depression alters the brain's response to music, suggesting an elevated responsiveness to music after treatment that is related to subjective drug effects during dosing. Nineteen patients with treatment-resistant depression underwent two psilocybin dosing sessions. Brain scans before and after treatment showed increased activity in the superior temporal cortex when listening to music, and decreased activity in the medial frontal lobes during rest. These changes in music-related brain activity correlated with the intensity of subjective effects felt during the psilocybin sessions. The findings imply that psychedelic therapy may enhance emotional responsiveness to music, which could be relevant for treating depression.
Journal of Psychopharmacology
May 20, 2022
Matthew B. Wall, Tom P. Freeman, Chandni Hindocha et al.
21 citations
THC strongly disrupts connectivity between the striatum and cortex, but co-administering CBD mitigates this effect in the limbic striatum network. In one study, inhaled cannabis with 8 mg THC or 8 mg THC plus 10 mg CBD disrupted associative and sensorimotor networks, while THC alone also disrupted the limbic striatum network. In a second study, oral 600 mg CBD increased connectivity in the associative network and caused minor disruptions in limbic and sensorimotor networks. The insula emerges as a key region affected by cannabinoid-induced changes in functional connectivity, with implications for understanding cannabis-related disorders and developing cannabinoid therapeutics.
American Journal of Psychiatry
May 7, 2025
Matthew B Wall, Lysia Demetriou, Bruna Giribaldi et al.
16 citations
Psilocybin therapy greatly improved depressive symptoms but had only a small effect on how the brain responds to emotional stimuli. This contrasts with SSRIs, which often reduce emotional responsiveness alongside their antidepressant action. The findings suggest that psychedelic therapy may work through different neural mechanisms than conventional antidepressants.
bioRxiv (Cold Spring Harbor Laboratory)
February 15, 2022
Matthew B. Wall, Cynthia Lam, Natalie Ertl et al.
8 citations
preprint
Psychedelic-assisted psychotherapy with psilocybin, which often incorporates music, may enhance the brain's response to emotional stimuli. In nineteen patients with treatment-resistant depression, functional MRI scans taken before and after two psilocybin dosing sessions showed that music listening, compared to resting-state, triggered greater brain activity in the bilateral superior temporal cortex after treatment. The right ventral occipital lobe showed increased activity during the resting-state scan post-treatment. Activity in music-related brain regions correlated with the intensity of subjective effects experienced during dosing. These results suggest psilocybin therapy specifically elevates responsiveness to music, linked to the drug's subjective effects.
medRxiv
June 3, 2023
Matthew B. Wall, Lysia Demetriou, Bruna Giribaldi et al.
7 citations
preprint
Psilocybin therapy for major depressive disorder may work through a different brain mechanism than the SSRI escitalopram. In a trial comparing two groups—one receiving two 25 mg psilocybin doses plus daily placebo, the other receiving daily escitalopram plus two inactive 1 mg psilocybin doses—brain responses to emotional faces were measured with fMRI before and after six weeks of treatment. The escitalopram group showed significantly reduced brain activity in response to fear, happy, and neutral faces, including a specific reduction in amygdala response to fear faces. The psilocybin group showed no such reduction and even a slight increase in brain responsiveness, despite large improvements in depressive symptoms. Reduced emotional responsiveness may be a biomarker of SSRIs' antidepressant action not shared by psilocybin therapy.
bioRxiv (Cold Spring Harbor Laboratory)
November 21, 2020
Matthew B. Wall, Tom P. Freeman, Chandni Hindocha et al.
4 citations
preprint
Cannabidiol (CBD) and Δ9-tetrahydrocannabinol (THC) are two major cannabis constituents with contrasting actions: THC is psychoactive and addiction-promoting, while CBD may have opposite effects. In two placebo-controlled, double-blind studies, inhaled THC (8 mg) strongly disrupted functional connectivity in associative and sensorimotor striatal networks, and this disruption was selectively alleviated in the limbic striatum when co-administered with CBD (10 mg). Oral CBD (600 mg) alone increased connectivity in the associative network but caused minor decreases in limbic and sensorimotor networks. The insula emerged as a key region affected by cannabinoid-induced connectivity changes, with implications for cannabis-related disorders and cannabinoid therapeutics.
Neurosci Insights
October 8, 2024
Matthew B Wall, Rebecca Harding, Natalie Ertl et al.
3 citations
Psychedelic therapies are new psychiatric treatments that may need to be combined with existing medications, but little is known about their interactions with common psychiatric drugs. This commentary reviews key findings on such drug-drug interactions and proposes that multimodal neuroimaging, combining PET and fMRI with other measures, offers the most thorough way to study these interactions across molecular, functional, and clinical levels.
bioRxiv
February 8, 2025
Natalie Ertl, Imran Ashraf, Lisa Azizi et al.
1 citation
preprint
LSD and MDMA, two psychoactive drugs being explored for psychiatric use, alter how the striatum—a brain region central to reward and motivation—communicates with other areas. In a resting-state fMRI study, neither drug changed connectivity within the striatum's own networks. However, MDMA reduced connectivity between the limbic striatum and the amygdala, while LSD increased connectivity between the associative striatum and frontal, sensorimotor, and visual cortices. These changes occurred mostly outside standard striatal networks, suggesting the drugs reduce the brain's usual network segregation, which may help explain their therapeutic potential for conditions like addiction, mood disorders, and PTSD.
Neuropsychopharmacology
October 31, 2025
Natalie Ertl, Imran Ashraf, Lisa Azizi et al.
LSD and MDMA, two psychoactive drugs being explored for psychiatric use, alter how the striatum—a brain region involved in reward and motivation—communicates with other areas. Using resting-state fMRI data from prior studies, researchers examined striatal connectivity after acute drug administration. Neither drug changed connectivity within the striatum's own networks. However, MDMA reduced connections between the limbic striatum and the amygdala, while LSD increased connections between the associative striatum and frontal, sensorimotor, and visual cortices. These changes occurred mostly outside standard striatal networks, supporting the idea that psychedelics reduce the brain's usual network segregation, potentially explaining their therapeutic and psychological effects.
The International Journal of Neuropsychopharmacology
February 1, 2025
Rebecca Harding, Natalie Ertl, Rayyan Zafar
Both escitalopram and psilocybin therapy reduced impulsivity and anhedonia in people with major depressive disorder, but they altered brain connectivity in different ways. Psilocybin increased connectivity between the amygdala and the left anterior insula and putamen, and between the limbic striatal network and the bilateral insula, paracingulate, and temporoparietal junction. Escitalopram decreased connectivity between the amygdala and the right cerebellum and occipital cortex, and between the limbic striatum and the insula. The escitalopram-induced reduction in limbic striatal–insula connectivity correlated with reduced anhedonia. These results suggest the two treatments affect reward-related brain circuitry through distinct mechanisms.
The Biochemist
March 14, 2024
Natalie Ertl, Matthew B. Wall
Psychedelics have been used for ritual, spiritual, and medicinal purposes since prehistory across many cultures. Classic psychedelics like psilocybin act on the serotonin 5-HT2A receptor, while atypical ones like MDMA and ketamine have different mechanisms and produce less hallucination. They all induce profound shifts in consciousness, positive emotions, and feelings of connectedness. LSD, first synthesized in the early 1940s, began the first wave of Western psychedelic research. By the 1960s, thousands of patients had received LSD therapy for depression, anxiety, and addiction in the USA, UK, and Czech Republic, coinciding with the development of other psychiatric drugs like monoamine oxidase inhibitors and antipsychotics.