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Clinical Trial Summary

This study will evaluate the effect of the dietary supplement N-acetylcysteine (NAC) on electrophysiologic (EEG) markers related to cognition, as well as performance on psychological tests measuring cognition. The primary hypothesis is that participants treated with NAC will show improvements in cognitive function, as measured by EEG and performance-based tests.


Clinical Trial Description

Schizophrenia is a serious mental illness associated with substantial social and occupational dysfunction. While positive psychotic symptoms of schizophrenia often respond to antipsychotic medications, negative symptoms and cognitive impairment are difficult to treat, necessitating novel interventions. Cognitive deficits are an important treatment target because the degree of cognitive impairment is a critical predictor of work, education, and social functioning.

Glutamatergic receptors are among the most promising biological targets for cognitive-enhancing drugs in schizophrenia. Abnormal glutamatergic signaling has long been thought to be important in the pathophysiology of schizophrenia; specifically, reduced NMDA glutamatergic receptor activity on thalamic inhibitory neurons disinhibits glutamatergic neurons projecting to the cortex, which can cause secondary dopaminergic abnormalities and lead to characteristic symptoms, including cognitive deficits. Many electrophysiological (EEG) biomarkers related to cognitive dysfunction in schizophrenia are thought to be linked to deficient NMDA glutamatergic neurotransmission. Additionally, neuroplasticity is thought to involve glutamatergic signaling. This pattern of linkages suggests that correcting impaired NMDA glutamatergic transmission in schizophrenia could lead to enhanced cognitive function and learning.

In this pilot study, we will focus on a promising dietary supplement approach to address glutamatergic deficits, evaluating its effects by EEG biomarkers and performance-based neurocognitive assessments. N-acetylcysteine (NAC) is a modified amino acid that is commonly used as a dietary supplement because of its antioxidant properties. NAC modulates glutamatergic signaling as follows: In the CNS, glial cells take up NAC via cystine-glutamate antiporters, which in turn leads to increased glutamate efflux into the extracellular space. Extracellular glutamate binds to non-synaptic glutamate receptors such as the metabotropic glutamate receptors (mGluR) type 2/3 and type 5. The net result of these events is a normalization of pathologically elevated cortical glutamate levels.

We will assess EEG biomarkers associated with cognitive deficits in schizophrenia, including a recently-described biomarker for visual cortical plasticity. We will also perform a comprehensive assessment of neurocognition with the MATRICS battery, which could suggest whether certain cognitive domains are sensitive to improvement with NAC therapy.

Our primary aim is to determine whether NAC administration will improve NMDA-dependent EEG abnormalities in schizophrenia. We have 3 hypotheses: (1) NAC administration will increase mismatch negativity amplitude as compared to placebo; (2) NAC administration will increase P300 amplitude as compared to placebo; and (3) NAC administration will increase gamma oscillation power and phase synchronization as compared to placebo. We also will examine whether NAC will improve measures of visual neuroplasticity, performance-based measures of neurocognition, and clinical symptoms of schizophrenia. ;


Study Design

Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Treatment


Related Conditions & MeSH terms


NCT number NCT01885338
Study type Interventional
Source VA Greater Los Angeles Healthcare System
Contact
Status Completed
Phase Phase 1
Start date June 2013
Completion date May 2014

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