View clinical trials related to Schizophrenia.
Filter by:The purpose of this study is to determine whether transcranial direct current stimulation (tDCS), when combined with different forms of computer based training, improves the ability to discriminate small differences between sounds in people diagnosed with schizophrenia or schizoaffective disorder.
The different subtypes of Schizophrenia might have a disordered connectivity as their final common pathways. The investigators will use multimodal structural MRI to assess anatomical connectivity on the one side and its functional consequence on functional connectivity on the other side to assess two phenotypes of psychosis : periodic catatonia and cataphasia in comparison with control subjects. The coherence between structural and functional anomalies will be especially studied.
Cognitive remediation (CR) and aerobic exercise have separately shown promising results in schizophrenia cognitive improvement, despite this, the impact in improving functionality is still limited. Aerobic exercise increases Brain Derived Neurotrophic Factor (BDNF) levels, promoting neuronal and cognitive plasticity, which can maximize the impacts of CR. The aim of this randomized controlled trial is to study the efficacy of a 3-month intensive program that combines CR plus physical exercise comparing it to cognitive remediation plus a control activity.
To investigate the treatment effect of continuous transcranial magnetic stimulation on schizophrenia patients with auditory hallucinations, and the underlying neural mechanism by functional MRI
The overall aim of this study is to test the effect of academic detailing (i.e. provider-level educational intervention focused on evidence-based smoking cessation treatment for those with psychiatric illness) and community health worker (CHW) support on the provision and utilization of standard of care smoking cessation treatment to those with serious mental illness (SMI) and smoking cessation rates for adults with SMI who smoke.
Caffeine is the most used psychoactive drug in Canada, with regular consumption by 88% of the adult population, While rates of caffeine consumption are considered to be high in the general population, there is some evidence that they may be even higher within schizophrenia patients; in a 2006 U.S. study, daily consumption rates of caffeine were nearly double those observed in a healthy control population (471.6 mg/day vs. 254.2 mg/day). Furthermore, 13% of the schizophrenia population studied ingested more than 1000 mg/day of caffeine, well above the 400 mg daily maximum recommended by Health Canada. High doses of caffeine are particularly concerning for individuals with schizophrenia; caffeine alters dopaminergic activity at post-synaptic neurons through its actions at adenosine A2A receptors, which may exacerbate positive symptoms, such as delusions and hallucination. This significant rate of consumption is likely due in part to caffeine's actions on the human brain, resulting in increased arousal, elevated mood and beneficial effects on a wide-range of cognitive processes including verbal working memory, sustained attention, and executive function. These areas of caffeine-induced cognitive improvement notably overlap with the cognitive domains that are reported to be diminished in schizophrenia. Despite this overlap and the rates of caffeine consumption observed within schizophrenia, research reports examining the effects of caffeine on cognition and brain activity are all but non-existent in this population. The primary objective of this proposal is to compare the effects of caffeine and placebo on brain function during cognitive tasks in participants with schizophrenia. While the investigators have specific hypotheses for each task, overall the investigators hypothesize that caffeine will improve cognitive function (as evidenced by larger ERP amplitudes and/or reduced ERP latencies) compared to placebo in schizophrenia patients, with similar effects (albeit reduced in magnitude) observed in non-patient healthy controls.
The objective of the study is to investigate the efficacy, safety and pharmacokinetics of four different doses of BI 425809 once daily compared to placebo given for 12 weeks in patients with schizophrenia on stable antipsychotic treatment.
This study is intended to determine whether the addition of trospium chloride to xanomeline tartrate will ameliorate the peripheral cholinergic side effects that have been previously experienced with xanomeline tartrate when administered alone.
This study involves evaluating the occupancy of ATI-9242 at steady state at three different dose levels on D2 receptors in the brain using [18F] Fallypride PET in up to three cohorts of subjects.
This is a multicenter, randomized, double-blind, placebo-controlled, three period crossover study to evaluate the effects of RO5545965 on the functioning of key brain circuitry involved in negative symptoms using functional magnetic resonance imaging (fMRI) and reward-based learning in stable participants with mild to moderate negative symptoms of schizophrenia treated with antipsychotics. Participants will be randomized to one of six different sequences during which each participant will receive three 3-week treatment courses with RO5545965 5 milligrams (mg), RO5545965 15 mg and placebo. Each treatment period will be separated by a washout period of 14 days. Total duration of study will be approximately 17 weeks.