Transcranial Direct Current Brain Stimulation to Treat Patients With Childhood-Onset Schizophrenia...
Childhood Onset Psychotic DisordersSchizophrenia2 moreThis study will test whether transcranial direct current stimulation (TDCS) can be used safely in children with schizophrenia and if it can improve memory and attention span or auditory hallucinations in these children, at least temporarily. TDCS has temporarily improved memory and attention span in healthy adults and a similar method called TMS has relieved auditory hallucinations in adults with schizophrenia. For the TDCS procedure, the child sits in a chair and two soft sponge electrodes are placed on the child s forehead and held in place with a soft wrapping. One sponge electrode is placed on an arm. The electrodes are attached to a stimulator with a wire. Children with schizophrenia who meet the following criteria may be eligible for this study: Are 10 yrs or older age. Are participating in NIH protocol 03-M-0035. Are on a stable medication regimen for at least 6 months. Have problems with memory and attention span or have auditory hallucinations. Participants are randomly assigned to receive either real or sham TDCS on an inpatient or outpatient basis in 20-minute sessions daily, except weekends, for 10 days. For real TDCS, patients receive stimulation to the front of the brain. For sham stimulation, the children have electrodes placed on the forehead, but no actual stimulation is delivered. In addition to TDCS, patients have the following procedures: Checks of blood pressure, pulse and breathing rate before, during and right after each stimulation and again 8 hours later. Electrocardiogram (EKG) and electroencephalogram (EEG) before starting stimulation and after completing the 10 days of TDCS. Interviews and examinations to check for side effects of TDCS. Pen-and-paper or computer tests of learning, attention and memory. At the end of the 10 sessions, children who were in the sham TDCS group are offered the same number of sessions of active TDCS. Follow-up telephone call 1 month after the end of stimulation to see how the child is doing. 1- to 2-day outpatient visit 6 months after the stimulation. This visit includes interviews with the parent and the child, rating of the child s psychiatric symptoms, and pen-and-paper or computer tests of thinking, attention and memory.
Anticholinergic Burden in Schizophrenia
SchizophreniaSchizoaffective Disorder3 moreAnticholinergic antiparkinsonian agents often cause side-effects including cognitive impairment, dry mouth, and constipation while they diminish antipsychotic-induced parkinsonian symptoms. The introduction of second generation antipsychotics (SGA) brought fewer neurological side effects. However, anticholinergic coprescription rates are still as high as 12-65% in patients on SGA that are much higher than the incidence of EPS reported in clinical trials (3-20%). This apparently discrepancy is likely explained, in part, by the established tradition of routine use of this medications. Older patients are particularly sensitive to anticholinergic side-effects due to age-related changes in pharmacokinetics and pharmacodynamics. In this study, we will examine the safety and benefits of reducing the dose of a frequently prescribed anticholinergics, benztropine, on cognitive function, extrapyramidal symptoms, and psychotic symptoms in older subjects with a primary psychotic disorder.
A Placebo-controlled Efficacy Study of IV Ceftriaxone for Refractory Psychosis
PsychosisSchizophrenia1 moreMany patients with schizophrenia and schizoaffective disorder have symptoms that persist, including hallucinations or delusions, despite adequate pharmacotherapy with antipsychotic drug. Glutamate is a major excitatory neurotransmitter in the brain that has been implicated in several brain diseases. NMDA antagonist drugs cause symptoms of psychosis in otherwise normal persons. It is postulated that reduced NMDA receptor mediated neurotransmission leads to an increase in synaptic glutamate. Excessive synaptic concentrations of glutamate can produce excitatory neurotoxicity. Agents which reduce excess glutamate activity are neuroprotective. This therapeutic strategy has been applied to schizophrenia through the use of compounds that reduce presynaptic release of glutamate or otherwise decrease excessive postsynaptic stimulation, including lamotrigine, memantine and a m-GLU-R2 agonist (LY354740) with the hypothesized result of a reduction in psychotic symptoms. Recently it was shown that a commonly available antibiotic (ceftriaxone) has the unique neuroprotective function of decreasing the amount of extracellular glutamate in nervous system tissue by increasing the number of glutamate transporter proteins. Our clinical experience with patients who have refractory psychosis and past Lyme disease indicates that in some patients psychosis may improve with IV ceftriaxone therapy. Whether this improvement was due to its antimicrobial or glutamate effect or a placebo effect is uncertain. In a placebo-controlled design, this study investigates the ability of ceftriaxone to decrease psychotic symptoms in patients with refractory psychotic disorders. In addition, the study will examine glutamatergic functional activity before and after treatment using brain imaging with magnetic resonance spectroscopy.
A Study to Assess the Effects of RO6889450 (Ralmitaront) in Participants With Schizophrenia or Schizoaffective...
SchizophreniaSchizoaffective DisorderThis study investigates the effects of RO6889450 on the negative symptoms associated with schizophrenia and schizoaffective disorder.
Prednisolone Addition for Patients With Recent-onset Psychotic Disorder
SchizophreniaSchizoaffective Disorder2 moreTreatment with prednisolone can be used as a proof of concept to investigate the possibility of immune modulation as a treatment for schizophrenia. It is expected that daily treatment with prednisolone in addition to antipsychotic treatment reduces psychotic symptoms and improves cognition, as compared to placebo. The investigators propose to investigate the effects of administering the corticosteroid prednisolone versus placebo in addition to standard antipsychotic medication in patients with early stage schizophrenia or related disorders, hypothesizing that a decrease in the overall low-grade cerebral inflammation due to prednisolon treatment will be expressed as a decrease in overall symptom severity., Secondly, addition of prednisolone is hypothesised to slow down cognitive deterioration in recent-onset psychosis patients. Finally, the investigators aim to determine whether indirect immunological parameters of the hypothesised low grade inflammation status in schizophrenia are shifted due to the addition of prednisolone.
A Study to Assess the Clinical Utility of Antipsychotic Medication Levels in Plasma as Determined...
SchizophreniaSchizoaffective DisorderThe purpose of this study is to determine the number of Medication Treatment Modifications (MTMs) made by the clinician at every visit when antipsychotic medication plasma levels (AMPL) results are available compared to when AMPL results are not available.
Database Registry for Neural Network Biomarkers in Psychosis
SchizophreniaSchizoaffective DisorderSeveral observations have been made with magnetic resonance imaging (MRI) that characterize brain connections and brain function in individuals with schizophrenia and other mental disorders. For example, research investigating schizophrenia focuses on the dysfunction of connections within and between the medial temporal lobe and the prefrontal cortex as well as other pertinent brain regions. This database registry will allow for the collection of clinical interview data, behavioral data, blood, magnetic resonance imaging (MRI) data, and functional magnetic resonance imaging (fMRI) data on individuals with and without mental disorders to better understand how connections in the brain and various brain regions function differently while volunteers perform various cognitive tasks. This is an observational study that is being conducted to collect data and place it in a registry for current and future investigational questions related to imaging in mental disorders.
Brain Effects of Memory Training in Early Psychosis
Psychotic DisordersBackground: People with psychosis show profound deficits in memory. A new cognitive remediation therapy using an app on a computer or mobile phone to improve memory has been effective in this population, but the neurobiological effects are unknown. Objectives: 1) To use functional magnetic resonance imaging (fMRI) to examine brain changes during a working memory task before and after a 12 hour memory training intervention on a computer or mobile phone, 2) To use diffusion tensor imaging (DTI) to examine white matter connecting prefrontal and parietal lobe before and after training. Methods: 46 people with psychosis will be randomized to a computerized training of either memory training or a control condition of non-memory games (language/card games) and will self-administer 4 hours of training over 4 days per week, for 3 weeks (12 hours total). Memory training will be done with the Peak app http://www.peak.net. Imaging data will be gathered with a 3 Tesla scanner pre and post training.
Assessing the Effects of Fanapt® on Social Cognition in Schizophrenia
SchizophreniaSchizoaffective DisorderThe study looks at whether treatment with iloperidone (Fanapt) is associated with improvements in social cognition in individuals who have been recently diagnosed with schizophrenia or schizoaffective disorder. Social cognition (the ability to understand your feelings and the feelings of others) is closely related to functional outcomes, including communication, empathy, and emotional recognition.
MEtformin and Lorcaserin for WeighT Loss in Schizophrenia
SchizophreniaSchizoaffective Disorder1 morePurpose: The purpose of this study is to test new pharmacologic strategies for weight loss in patients with schizophrenia, a population for which no current weight-loss treatments have gained widespread use. The goal is to recruit overweight people with schizophrenia to participate in a 52-week double-blind, randomized study to assess the efficacy and safety of lorcaserin/metformin combination treatment, lorcaserin monotherapy, and placebo on weight, body composition, and measures of glucose and lipid metabolism. Participants: Approximately 110 subjects will be enrolled at four clinical sites (UNC Chapel Hill, Carolina Behavioral Care, Columbia University, and Augusta University) Procedures (methods): Behavioral: All participants will be offered a behavioral intervention of weekly diet and exercise counseling aimed at modifying cardiovascular risk factors. This intervention will be provided at all in-person study visits after the Baseline Visit and supplemented with weekly interim phone calls to reinforce lessons between visits. Pharmacological Intervention: All participants who meet entry criteria will be randomized to one of the three treatment groups (lorcaserin/metformin, lorcaserin, and placebo).