Converging effects of cannabis and psychosis on the dopamine system: A longitudinal neuromelanin-sensitive MRI study in cannabis use disorder and first episode schizophrenia
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Importance
Despite evidence that individuals who use cannabis early in life are at elevated risk of psychosis and that the neurotransmitter dopamine has a role in both conditions, the mechanism linking the two conditions remains unclear.
Objective
To use neuromelanin-sensitive MRI (neuromelanin-MRI), a practical, proxy measure of dopamine function, to assess whether a common alteration in the dopamine system may be implicated in cannabis use and psychosis and whether this alteration can be observed in cannabis users whether or not they have a diagnosis of first-episode schizophrenia.
Design, Setting, and Participants
This longitudinal observational study recruited participants from 2019 to 2023 from an early intervention service for psychosis in London, Ontario, Canada. The sample consisted of 25 participants with cannabis use disorder (CUD) and 36 participants without CUD (nCUD), of which 28 had first-episode schizophrenia (FES). One-year follow-up was completed for 12 CUD and 25 nCUD participants.
Main Outcomes and Measures
Neuromelanin-MRI contrast within the substantia nigra (SN) and within a subregion previously linked to psychosis severity (a priori psychosis region of interest) and diagnoses of schizophrenia-spectrum disorder and cannabis use disorder derived from the Structured Clinical Interview for DSM-5. Linear mixed effects analyses were performed relating neuromelanin-MRI contrast to clinical measures.
Results
We found that CUD was associated with elevated neuromelanin-MRI signal in a cluster of ventral SN voxels (387 of 2060 SN voxels, p corrected =0.027, permutation test). Furthermore, CUD was associated with elevated neuromelanin-MRI signal in an SN subregion previously documented to have elevated signal in relation to untreated psychotic symptoms (t 92 =2.12, p=0.037). In contrast, FES was not associated with a significant alteration in neuromelanin-MRI signal (241 SN voxels had elevated signal, p corrected =0.094).
Conclusions and Relevance
These findings suggest that elevated dopamine function in a critical SN subregion may contribute to the risk of psychosis in people with CUD. Thus, cannabis affects the long-suspected ‘final common pathway’ for the clinical expression of psychotic symptoms. Imaging the dopamine system with neuromelanin-MRI may index long-term dopamine turnover.
Key Points
Question
Is the same midbrain dopamine pathway impacted by cannabis as in psychosis?
Findings
Cannabis use disorder participants had elevated neuromelanin-MRI signal in a cluster of ventral substantia nigra voxels and in a subregion previously documented to have elevated signal in relation to untreated psychotic symptoms.
Meaning
Increased dopamine functioning in the ventral substantia nigra may contribute to the risk of psychosis in people with cannabis use disorders.
