A Multimodal Imaging Study of Dopamine in Early Psychosis

Overview

The development of new treatments for psychosis, a psychiatric condition that is prevalent and highly disabling despite antipsychotic medications, has been limited, in part, by a lack of information from brain imaging studies during the period that leads to the development of psychotic symptoms. In this project the investigators will use Positron Emission Tomography (PET) and neuromelanin-sensitive magnetic resonance imaging (NM-MRI) to examine a brain chemical that is involved in schizophrenia called dopamine and where it first becomes abnormal. The investigators will use multimodal PET/MR imaging (i.e., \[11C\]raclopride w/MPH challenge and NM-MRI) in the same CHR patients. The investigators will recruit 115 clinical high risk individuals. All subjects will undergo \[11C\]raclopride w/methylphenidate challenge and neuromelanin-MRI imaging along with clinical assessments. Patients will be followed every 3 months for two years or until conversion to psychosis, whichever comes first, to assess for conversion to psychosis and clinical outcomes.

A large body of evidence suggests that abnormal striatal dopamine (DA) transmission is a key pathophysiological phenomenon in psychosis, mainly within the associative striatum (AST). However, it remains unclear where striatal DA abnormalities in psychosis start and whether they can be turned into a biomarker for development of psychotic illness. Early studies in individuals at clinical high-risk for psychosis (CHR) demonstrated that patients had higher \[18F\]DOPA uptake (i.e., DA synthesis capacity) in the AST compared to healthy control subjects (HC). One study reported that CHR individuals who developed a syndromal psychotic disorder had higher \[18F\]DOPA uptake than CHR individuals who did not progress. However, more recent work in larger samples has not replicated either finding. The investigators recently completed a feasibility study in which the investigators used \[11C\]-(+)-PHNO w/methylphenidate (MPH) challenge to examine intrasynaptic DA transmission in 14 CHR individuals and 14 HCs. The investigators found that intrasynaptic DA transmission was significantly elevated in the limbic/ventral striatum (VST), and not in any other ROI, in CHR individuals compared to HC. There was a strong correlation between intrasynaptic DA transmission in VST and total negative symptoms in the CHR group in which greater displacement was related to less negative symptoms. CHR subjects experienced no change in positive symptoms with MPH challenge, which demonstrates the safety of this technique. Additionally, our preliminary data with neuromelanin sensitive MRI (NM-MRI), a MR technique of measuring NM, a metabolite of DA, in different presynaptic nuclei (the substantia nigra \[SN; the ventromedial portion of which projects to the AST\] and ventral tegmental area \[VTA; which projects to the VST\]), demonstrate positive relationships between the contrast-to-noise ratio (CNR) of NM-MRI in the SN and positive symptoms in CHR and SCZ subjects. Taken together, these findings may reflect: 1) that striatal DA abnormalities in early psychosis progress in a temporo-spatial manner from VST to AST; 2) a clinical pattern in which negative symptoms are related to limbic DA transmission and positive symptoms reflect DA function in associative regions; 3) differences in biomarker (i.e., PHNO w/MPH challenge, NM-MRI, \[18F\]DOPA). This proposal will aim to advance the understanding of the nature, topography, and timing of striatal DA alterations in early psychosis by using multimodal PET/MR imaging (i.e., \[11C\]raclopride w/MPH challenge and NM-MRI) in the same CHR patients. The investigators will recruit 115 CHR individuals. All subjects will undergo \[11C\]raclopride w/MPH and NM-MRI imaging along with clinical assessments. Patients will be followed every 3 months for two years or until conversion to psychosis, whichever comes first, to assess for conversion to psychosis and clinical outcomes. Clarifying the nature, timing, and topography of DA abnormalities in early psychosis will greatly inform translational studies and could provide support for alternative initial therapeutic interventions to prevent progression in early psychosis.