Modafinil for Treatment of Cognitive Dysfunction in Schizophrenia

Phase 4

Completed

Conditions: Schizoaffective Disorder
Schizophrenia

Interventions: Drug: Placebos
Drug: modafinil

Registration Number: NCT00423943

Lead Sponsor: University of California, Los Angeles

Brief Summary: Patients with schizophrenia have problems in thinking, known as cognitive dysfunction. This appears to be responsible for their difficulties in social and occupational functioning. One particular cognitive function that may be important for schizophrenia is called context processing. This refers to the ability to properly use information in the environment to guide thinking and behavior so that it is appropriate to the present circumstance. Problems with this function may explain why patients with schizophrenia think and act in unusual ways, and often have problems managing aspects of their lives that healthy adults take for granted. This cognitive function depends on a region of the brain called the prefrontal cortex, which shows impaired function in schizophrenia as well. Unfortunately, the biochemical aspects of this dysfunction are presently unknown, and it is not clear whether current psychiatric medications can improve this function. A recent FDA-approved medication that may improve this function is modafinil. Studies in animals and healthy adults show that this medication can improve cognitive functions which are related to context processing. We plan to study the effects of modafinil on context processing and the brain activity that underlies this function. We will use functional MRI and electrophysiology to examine the effects of modafinil, both after a single dose and after sustained (4 week) treatment. We predict that when patients receive modafinil they will perform better on cognitive tests and have improved activity in the regions of the brain that are responsible for these cognitive processes.

Detailed Description: Schizophrenia is a disorder of cognition. The cognitive deficits of schizophrenia are present at the onset of the disorder, prior to medication exposure, are persistent during periods of remission, and are strongly related to functional outcome. These deficits prominently include prefrontal-dependent functions. While existing medications effectively treat psychotic symptoms, they exhibit modest benefit at best for cognitive dysfunction. Studies of cognition in animal models indicate that the neurotransmitter systems that mediate prefrontal-dependent cognitive processes are not generally augmented by existing antipsychotic medications. Therefore, advances in the treatment of schizophrenia will require the study of agents with novel pharmacological profiles to establish their potential to remediate cognitive dysfunction.

Advances in understanding the mechanism of action of these agents will also require the integration of pharmacology with a sophisticated methodology for testing cognition. This goal has been strongly pursued in recent years with the use of functional magnetic resonance imaging (fMRI) to study pharmacological effects on cognition. fMRI studies have identified the cortical network subserving cognitive control and working memory, which are consistently impaired among schizophrenia patients. The study of medication effects on these processes with fMRI (pharmaco-fMRI) will permit the more precise delineation of the cognitive mechanisms amenable to pharmacological intervention.

This study will use fMRI to study the effects of modafinil on the functional neuroanatomy underlying prefrontal cognitive processes. Modafinil is an FDA-approved medication with a unique pharmacological profile and an increasing range of off-label indications. Its neurochemical effects in animal models include elevation of extracellular dopamine (DA), noradrenaline (NA) and glutamate in the neocortex. This profile is favorable for the enhancement of prefrontal cognitive processes. These neurochemical effects also appear to be selective for cortical versus subcortical brain regions, suggesting that modafinil may have minimal effects on psychotic symptoms, or extrapyramidal, autonomic and hormonal side effects. In addition, it differs from amphetamine in structure, neurochemical profile and behavioral effects, with a lower risk of addictive or cerebrovascular effects. Recent studies in animal models, healthy adults and adults with psychiatric and neurological disorders indicate that modafinil improves prefrontal cognitive functions. This suggests that modafinil is a leading candidate for the treatment of cognitive dysfunction in schizophrenia. We aim to test modafinil effects on these processes in healthy adults, in order to evaluate modafinil effects on normal-range cognition, and then evaluate the remediation of deficits in these functions in individuals with schizophrenia, both in a single-dose trial and followed by a trial of sustained treatment.

Comparison 1. The effect in healthy adults and adults with schizophrenia/schizoaffective disorder, of Modafinil 200 milligrams single oral dose versus placebo (double-blind, balanced crossover design), on cognitive control task performance, and on activity of dorsolateral prefrontal cortical (DLPFC) during context processing, and anterior cingulate cortex (ACC) during conflict monitoring phases of the task, both measured by fMRI.

Comparison 2. The effect in adults with schizophrenia/schizoaffective disorder, of 4-week randomized, double-blind treatment with Modafinil 200 milligrams daily versus placebo, on cognitive control task performance, and on activity of dorsolateral prefrontal cortical (DLPFC) during context processing, and anterior cingulate cortex (ACC) during conflict monitoring phases of the task, both measured by fMRI.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 33

Inclusion Criteria

adults age 18-54
diagnosis of schizophrenia or schizoaffective disorder, or healthy with no personal or family history of mental illness
able to provide informed consent

Exclusion Criteria

history of significant head injury or other neurological illness
active psychiatric illness requiring significant acute care
significant intellectual impairment (e.g. standardized full-scale IQ < 70)
history of medical illness or treatment that either interferes with experimental measures (e.g. cerebrovascular disease, anemias, etc.) or is associated with significant increase in risk from modafinil treatment (e.g. cardiac disease)
significant active substance abuse
presence of ferromagnetic foreign body or prosthesis
active pregnancy
active treatment with medications that have drug interactions with modafinil

Study & Design

Study Type: INTERVENTIONAL

Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Placebo	Placebos	placebo
D	modafinil	modafinil

Primary Outcome Measures

Name	Time	Method
Control-related BOLD Signal Change in Locus Coeruleus	4 weeks	BOLD signal change on high-control (i.e. difficult) condition versus low-control (i.e. easy) condition, on Preparing to Overcome Prepotency Task, measured by fMRI after 4-week treatment.
Gamma Power Change in Count of Clusters	4 weeks	Power in Gamma frequency range by scalp electrophysiology after single-dose and after 4-week treatment: Count of Clusters (defined as those with statistically-significant Task-Related Increase, i.e. relatively larger value of wavelet coefficient in wavelet analysis of signal) for high-control (i.e. difficult) condition versus Low-control (i.e. easy) condition, in Oscillatory Power in Time-Frequency Spectrogram. Increased values indicate improved function.
Percent Change in Accuracy on High-control (i.e., Difficult) Condition of Preparing to Overcome Prepotency Task	Baseline, 4 weeks	Accuracy change on high-control (i.e., difficult) condition of Preparing to Overcome Prepotency (POP) Task. For high-control condition (red-cue), subjects responded in the incongruent direction (eg, for a right-pointing arrow, press the left button, and vice versa). Increased values indicate improved performance.

Secondary Outcome Measures

Name	Time	Method
Change in Negative Symptoms	Baseline, 4 weeks	Change in average score, ranging from 0 (absent) to 5 (severe), on on Scale for the Assessment of Negative Symptoms (SANS) from baseline to 4-week time-point. Decreased values indicate improved clinical status (lesser symptom severity).
Change in Positive Symptoms	Baseline, 4 weeks	Change in Average score (range 0-5) on the Scale for Assessment of Positive Symptoms (SAPS) from baseline to 4 week time-point, ranging from 0 (absent) to 5 (severe). Decreased values indicate improved clinical status (lesser symptom severity).