View clinical trials related to Schizophrenia.
Filter by:The purpose of this study is to evaluate the long-term treatment efficacy, and safety of risperidone long-acting injection in participants with schizophrenia (psychiatric disorder with symptoms of emotional instability, detachment from reality, often with delusions and hallucinations, and withdrawal into the self).
The primary objectives of this application are to determine if the selective ERβ agonist LY500307, when added to antipsychotic medications, improves negative and/or cognitive symptoms in patients with schizophrenia. The specific hypotheses to be tested are to determine if LY500307 is safe and well tolerated in this population and whether it elicits a sufficient efficacy signal to be advanced for further testing in schizophrenia. A two-stage Phase 1b/Phase 2a adaptive ("drop the inferior dose") experimental design is ongoing that combines three studies (clinical dose optimization, cortical target engagement confirmation and efficacy and safety assessment) into a single clinical trial. Stage 1 was conducted in year 1 and Stage 2 will be conducted in years 2 and 3. The goal of Stage 1 was to identify and advance the highest dose that did not demonstrate a safety signal and had target selectivity as determined by lack of TT suppression. This criteria was fulfilled at both doses, the larger of the two (75 mg/day dose) was advanced to Stage 2. Furthermore, there was no suggestion of ERα receptor activation (i.e., no pattern of TT decreases or feminization AEs) at either dose (25 mg/day and 75 mg/day). A third arm of 150 mg/day was added to Stage 2 for evaluation. Stage 2 results in the following three arms: placebo, 75 mg/day and 150 mg/day. The goals of Stage 2 are to further assess LY500307 doses for safety and target selectivity, confirm cortical target engagement and assess efficacy. Primary Aim 1: To determine if LY500307 demonstrates cortical target engagement as assessed by fMRI/N-back in frontal-parietal regions. Secondary measures of target engagement are fMRI episodic memory, Pseudo-Continuous Arterial Spin Labeling, Mismatch Negativity/evoked response potentials, Auditory Steady State Response, Auditory P300 and Quantitative EEG (QEEG). Primary Aim 2: To determine if LY500307 is superior to placebo for one or more of the primary efficacy endpoints: negative symptoms (Negative Symptom Assessment Scale - 16-item total score), working memory (the composite score for the Letter Number Sequencing and Spatial Span tests) and verbal memory (Hopkins Verbal Learning Test). Primary Aim 3: To determine if LY500307 reduces total testosterone (TT) plasma concentrations, which is indicative of loss of selectivity for ERβ and engagement of ERα, using the following criteria: Decrease in TT plasma concentrations of 50% from baseline in 50% of subjects per arm treated for two consecutive post-randomization values with LY500307 in Stage 1 and Stage 2 of the trial. Primary Aim 4: To assess the safety of LY500307 by determining if there are SAEs, AEs "probably related to study drug," QTc prolongation, TT suppression (50% reduction from baseline) and to evaluate for other safety signals.
This is a brief inpatient study to determine the safety of a new drug in healthy people.
This is a study of ABT-126 in the treatment of cognitive impairment associated with schizophrenia (CIAS), a long-term extension study to study M10-855 (NCT01655680).
Approximately 25% of people with schizophrenia abuse marijuana. These people may be using marijuana to self-medicate symptoms such as hallucinations (hearing or seeing things that are not heard or seen by others) or delusions (false beliefs i.e. people are harassing or persecuting them) or the depressed and anxious feelings brought on by these symptoms. Currently, it is unknown whether marijuana makes schizophrenia better or worse. Marijuana intoxication in people without schizophrenia generally causes decreased recall of words, may decrease reaction time and decrease inhibition. Additionally, marijuana may cause distractibility as demonstrated by difficulty keeping their eyes on a moving target and difficulty inhibiting their response to repetitive tones. However, marijuana may have different effects in schizophrenia. Receptors for cannabis (marijuana) are concentrated in the brain and maladjustment of the cannabinoid system may be associated with the difficulty in thinking found in schizophrenia. The proposed research project examines if clinical symptoms, learning, memory, inhibition and distractibility are improved or made worse by the acute ingestion of tetrahydrocannabinol (THC).
This project will result in the development of a personalized intervention strategy to improve motivation for treatment engagement and functional outcomes in individuals with a recent onset of schizophrenia. Motivational impairment is arguably the single most important factor that determines a patient's ability to engage in and adhere to effective treatment. In our study, sixty participants will be enrolled in a randomized controlled trial comparing the feasibility and tolerability of two types of motivational interventions (Daily Goals or PRIME), and a neuroplasticity-based cognitive training program. Participants are randomized to either receive Daily Goals or PRIME for 8 weeks, after which, both conditions will also receive an 8-week course of cognitive training delivered via iPads. Participants will undergo pre/post-testing and a 6-month follow-up to determine feasibility and efficacy of the interventions. By enhancing motivation, schizophrenia patients would be able to engage more fully with treatment and develop full and productive lives. This study may also pave the way forward for other health conditions in which motivational impairments impede health outcomes. All assessments will be conducted at the University of California, San Francisco; however, we offer some assessments to be done remotely.
Phosphodiesterase (PDE) inhibitors represent a new group of potential antipsychotic compounds currently under development. One of these is papaverine, an inhibitor of the PDE 10 family. The class of PDE10 inhibitors have been reported as possible candidates in the treatment of schizophrenia, and may prove an attractive antipsychotic alternative due to the many side-effects of the currently available antipsychotics. It has been proposed from preclinical studies that PDE10 inhibitors have the potential to reduce cognitive deficits in schizophrenia and these findings need to be confirmed in a human population, in view of the fact that no other currently registered drug posses these unique properties. The currently proposed project is designed to investigate whether the PDE10 inhibitor Papaverine indeed have the capacity to reduce cognitive deficits in schizophrenia patients. In order to accomplish this effect, Papaverine will be investigated in schizophrenia, with regards to symptomatology, hemodynamic, neurocognition and early information-processing.
Current Canadian Clinical Practice guidelines emphasize the need for effective psychosocial adjuncts to pharmacotherapy for schizophrenia (Canadian Psychiatric Association 2005). This randomized control trial seeks to contribute to the body of evidence supporting psychosocial treatments by assessing the effectiveness of metacognitive training (MCT) and cognitive remediation (CR) at treating the persistent positive and cognitive symptoms of schizophrenia. MCT is a therapy designed to improve patient awareness and insight into the cognitive biases that are frequently seen in schizophrenia; it has been associated with decreased psychopathology (specifically decreased positive symptoms) and improved psychosocial function. CR is a therapy designed to improve performance in a variety of neurocognitive functions such as attention, memory, and executive functioning; it has been associated with improved cognitive and psychosocial functioning. Both MCT and CR will be compared to treatment as usual (TAU) as done previously (Kumar er al., 2010; Moritz et al., 2011). Hypotheses: 1. MCT will produce greater change in delusions (severity and conviction) than CR and TAU. 2. CR and MCT will produce greater change in social/everyday functioning than TAU. 3. CR will produce greater improvement in basic attention and memory measures relative to MCT and TAU. 4. MCT will produce greater reduction on tasks measuring targeted reasoning biases relative to CR and TAU. 5. CR will increase efficiency of functional networks on a working memory task relative to MCT and TAU. 6. MCT will lead to a greater decrease in the neural response to evidence matches relative to CR and TAU.
The primary purpose of this study is to determine if the long-term use of SPD489 (40, 80, 100, 120, 140, and 160mg) administered as a daily morning is safe and tolerable.
The primary purpose of this study is to determine whether SPD489 low dose range (40, 80, or 100mg) and high dose range (120, 140, or 160mg) are effective in the treatment of Negative Symptoms.