Schizophrenia is a chronic debilitating psychotic disorder. Identifying persons with "clinical high-risk" (CHR) symptoms, which are like those of schizophrenia but less severe, and providing psychiatric care to these individuals has been shown to help prevent psychosis. Current medications used for CHR symptoms, however, are associated with substantial side effect burden. Therefore, practice guidelines do not recommend current medications as routine treatment for the CHR state, and there is a need to identify new treatments for this condition. Research suggests that abnormal brain oxidative stress may contribute to schizophrenia, offering a potential novel treatment target in the CHR state. Oxidative stress is an excess of free radicals, which are generated from normal metabolism and environmental exposures, and can damage cells. Antioxidants in the body normally neutralize free radicals. Antioxidant deficiency could result in excess oxidative stress that damages brain cells, leading to schizophrenia. Recent studies suggest that N-acetylcysteine (NAC), a precursor of the most abundant brain antioxidant, glutathione, may be a safe, well-tolerated treatment for schizophrenia. In light of this, NAC may also reduce symptoms and brain abnormalities in CHR patients.
The primary aim is to examine the effect of NAC on psychosis-like symptoms in CHR patients. Secondary aims are to examine the effect of NAC, in these patients, on the amplitude of the mismatch negativity (MMN), an electroencephalographic event-related potential (ERP) response to rare sounds among frequent ones; and the amplitude of the N400 semantic priming effect, an ERP response to unexpected compared to expected meaningful stimuli (e.g., words, pictures); both of which have been found to be reduced in both schizophrenia and the CHR state. This will be a randomized, double-blind, placebo-controlled trial. Ninety CHR patients will take either NAC 2000 mg orally or placebo, daily for 8 weeks. Psychosis-like symptoms will be assessed at baseline, week 4 and week 8 using the Positive symptom score of the Scale of Psychosis-Risk Symptoms in the Structured Interview for Psychosis-Risk Syndromes. MMN amplitude and the N400 semantic priming effect will be measured at baseline and week 8. We hypothesize that patients will have more improvement in psychosis-like symptoms, and greater increases in MMN amplitudes and N400 semantic priming effects, after taking NAC vs. placebo. If we find that NAC improves psychosis-like symptoms and/or these neurophysiological biomarkers of the CHR state, this would support further research on NAC as a preventive treatment against psychosis.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
QUADRUPLE
Enrollment
90
2000 mg (4 x 500-mg tablets) every morning
4 placebo tablets every morning
Centre for Addiction and Mental Health
Toronto, Ontario, Canada
RECRUITINGChange in positive psychosis-like symptoms from baseline to 8 weeks
Measured by the Positive symptom score of the Scale of Psychosis-Risk Symptoms, where the minimum score is 0 and the maximum score is 30, and higher scores mean a worse outcome.
Time frame: Week 0 to week 8
Change in mismatch negativity (MMN) amplitude from baseline to 8 weeks
MMN amplitude will be measured as mean voltage from 135-205 ms post-stimulus onset of the ERP waveform formed by subtracting the average for standard tones from the average for deviant tones.
Time frame: Week 0 to week 8
Change in N400 semantic priming effect from baseline to 8 weeks
N400 semantic priming effect will be measured as mean voltage from 300-500 ms post-stimulus onset of the ERP waveform formed by subtracting the average for related stimuli from the average for unrelated stimuli.
Time frame: Week 0 to week 8
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