View clinical trials related to Schizo Affective Disorder.
Filter by:Medication adherence is a challenge in all of medicine and is associated with multiple negative outcomes. Strategies to better measure and enhance adherence to medication are urgent and necessary to minimize unwanted health outcomes, hospitalizations, poorer quality of life and excessive costs for individuals, insurers and caregivers. Recently, behavioral economics-based approaches have emerged as a promising tool to address this unmet need, but its effectiveness in oral antipsychotic treatment remains to be assessed. For this project, investigators will use an app that offers financial incentives to increase compliance for patients with chronic diseases. Investigators intend to enroll 25 patients in a pilot project to assess feasibility of offering financial incentives to improve medication adherence in severe mental illness.
This application seeks to determine if neurophysiological metrics of memantine (MEM)-enhanced early auditory information processing (EAIP) in schizophrenia (SZ) mediate gains in auditory processing fidelity (APF) and auditory learning.
This study will look at the Characteristics of LY03010 Versus INVEGA SUSTENNA® in the blood of Schizophrenia Patients
Schizophrenia is a major public health problem associated with cognitive deficits, such as short and long term memory, executive functioning, attention and speed of processing that are amongst the strongest predictors of impaired functional outcome. In addition, schizophrenia patients show reduced "plasticity", defined as reduced learning. D-serine is a naturally occurring activator of the N-methyl-d-aspartate-type glutamate receptors (NMDAR) in the brain, and this project will assess the optimal dose of D-serine treatment over three sessions of a program designed to measure auditory plasticity.
This study aims to evaluate the acute effects of nimodipine on cognitive performance in patients with schizophrenia using a battery of cognitive assessments.The subjects will also complete a 30-minute structural and functional MRI scan, with the goal of linking brain activity with working memory performance. Investigators predict that the performance increase induced by nimodipine will be greater in subjects who carry the A allele for the Calcium Voltage-Gated Channel Subunit Alpha1 C (CACNA1C) risk single nucleotide polymorphism (SNP) (rs1006737) in comparison to the response of G carriers.
The main purpose of this study is to learn how transcranial magnetic stimulation (TMS) helps improve negative symptoms of schizophrenia. These 'negative symptoms' include anhedonia (the inability to enjoy things), low motivation, and decreased facial expression. TMS is a noninvasive way of stimulating the brain. TMS uses a magnetic field to cause changes in activity in the brain. The magnetic field is produced by a coil that is held next to the scalp. In this study we will be stimulating the brain to learn more about how TMS may improve these symptoms from schizophrenia.
About 1 in 100 people will experience an episode of psychosis. Some people will only experience one 'psychotic episode' and about a quarter of people make a full recovery. Others will have recurring periods of problems ('relapses'), perhaps at times of particular stress. As people often find psychosis distressing, this study looks at ways to help them stay well in the future. There is growing evidence that 'early signs' interventions can prevent relapses of psychosis. Early signs are things that might happen when people start to become unwell. For example some people start to sleep badly when they are becoming unwell. Most people with psychosis can identify early signs emerging in the weeks before relapse. In early signs interventions, service users are taught to recognise early signs that their mental health may be deteriorating so that they can take action to avoid becoming unwell. Although early signs interventions show promise, the investigators suggest that they can be improved by more accurate assessment of relapse risk. This might be achieved by monitoring 'basic symptoms' in addition to conventional early signs of relapse. Basic symptoms are subtle, subclinical disturbances in one's experience of oneself and the world. Typical basic symptoms include: changes in perceptions, such as increased vividness of colour visionÍž impaired tolerance to certain stressorsÍž difficulty finding or understanding common words. In this study the investigators want to design and test a mobile phone app to help monitor basic symptoms. They hope that the app might help service users to stay well in the future. During the study the investigators will ask participants to use the app once a week for 6 months. At the end of the study they will interview them about their experiences of using the phone app and participating in the study.
All participants will receive free weekly counseling (8- weeks) and free nicotine patches (10-weeks). They will complete assessment measures commonly used in smoking cessation studies. We hope to show that this treatment is feasible in this small pilot study before comparing it to a more established treatment in a future randomized clinical trial.
People with serious mental illness often report difficulties with thinking skills like memory. These difficulties can make it harder to perform day-to-day activities. The purpose of this study is to test whether combining a type of non-invasive brain stimulation with computerized cognitive exercises is acceptable to participants, and whether it is helpful in improving a specific type of memory skill in people who have mental health conditions and memory deficits. This study is designed so that all participants will get both treatments: the non-invasive brain stimulation and computerized cognitive exercises. Half of the participants will start with both the brain stimulation and the cognitive exercises (dual therapy), and half will start with just the computerized exercises (monotherapy). After three weeks, participants will switch to the other condition: the people who did both treatments first will switch to just the cognitive exercises alone, and the people who started with the cognitive exercises alone will then switch to doing both the brain stimulation and cognitive exercises. Overall, participants will be in the study for about 7-8 weeks. The brain stimulation treatment involves 10 visits to the clinic over 3 weeks. The computerized cognitive exercises can be done at home, and involve 10 hours of exercises over 3 weeks. Participants will also complete paper-and-pencil assessments at the beginning, middle, and end of treatment.
Investigating the effects of non-invasive transcranial alternating current stimulation (tACS) as a treatment for auditory hallucinations in patients with schizophrenia.