View clinical trials related to Bipolar Disorder.
Filter by:The goal of this clinical trial is to compare the effects of two different healthy lifestyles on outcomes for those with bipolar disorder. The goals are to understand the acceptability of time-restricted eating and the mediterranean diet for those who are already receiving medication treatment for bipolar disorder, and to consider how these two food plans predict changes in manic symptoms, depressive symptoms, and Quality of Life. Participants will complete daily measures of eating, sleep and mood for two weeks, and then will be assigned to follow one of the two food plans for eight weeks. The investigators will measure symptoms and Quality of Life at baseline and during and after the food plan.
The investigators want in a 6-month randomized controlled trial (RCT) to compare effects of lithium versus lamotrigine on mood stabilization and other critical patient outcomes in patients with BDII.
"The Norwegian Adult Mental Health Registry" (NAMHR) is a medical quality register collecting and systematizing data on patients and their treatment in specialist mental health care for adults in Norway. The main purpose is to create a documentation basis for quality assurance, evaluation, and improvement of assessment and treatment for patients who are offered treatment for mental disorders in the specialist health service. The register uses automatic data capture from various existing data sources. New patients are automatically included, but given the opportunity for reservations from the register without affecting their services and treatment.
The goal of this clinical trial is to learn about cognition in psychotic disorders (schizophrenia, bipolar disorder, and schizoaffective disorder). The main question it aims to answer is: Can we use magnetic stimulation to change processing speed (how quickly people can solve challenging tasks). Participants will be asked to perform cognitive tasks (problem-solving) and undergo brain scans before and after transcranial magnetic stimulation (TMS). TMS is a way to non-invasively change brain activity. Forms of TMS are FDA-approved to treat depression and obsessive compulsive disorder. In this study, we will use a different form of TMS to temporarily change brain activity to observe how that changes speed in problem-solving.
Globally, it's estimated that around 300 million people are affected by depressive illness, and even with access to modern mental health care, long-term recovery is uncommon. Recently, there has been increasing interest in a promising intervention: the ketogenic diet. This diet restricts carbohydrate intake, promoting the breakdown of fats into circulating ketone bodies, which can act as an additional energy source for the brain, potentially reducing its reliance on glucose. While various sources of evidence suggest the potential benefits of the ketogenic diet for individuals with depression, robust clinical studies on its efficacy in depressed patients are lacking. Our goal is to conduct an eight-week, assessor-blinded, randomized controlled trial to investigate the therapeutic effects of a very low-carbohydrate, high-fat ketogenic diet compared to an active comparator diet in individuals with depression.
Damages in frontal area present in neurodegenerative disease (frontotemporal degeneration, frontal variant of Alzheimer disease) and in psychiatric disease (bipolar disorder) can affect behavior and cognition including social cognition. Symptoms vary both quantitatively and qualitatively from disease to another and from person to person. It cannot be completely excluded that in some cases, factors of susceptibility such as premorbid personality traits lead to frontal fragility. The study will assess the relationship between premorbid profile using NEO-PI 3 inventory and cognitive and behavioral/psychobehavioral manifestations in patients with behavioral variant of frontotemporal disorder (bvFTD), phenocopy frontotemporal dementia (phFTD), frontal variant of Alzheimer disease, bipolar disorder characterized with frontal damages.
This is a single-arm pilot study to examine the impact of BXCL501 (sublingual film formulation of dexmedetomidine) administration on reducing the severity of undifferentiated acute agitation in patients presenting to the emergency department with underlying bipolar disorder or schizophrenia. This study is designed to evaluate BXCL501 for its FDA-approved indication -- treatment of agitation associated with bipolar disorder or schizophrenia -- applied in the emergency department setting.
Bright Light Therapy (BLT) is a proven treatment for depression in seasonal and non-seasonal depressive disorders, as well as bipolar disorder. To make BLT more effective and practical in clinical settings and tailor it to individual needs, it is necessary to optimize the treatment approach, understand how the treatment works, and identify patient characteristics that predict response. This clinical trial has three main goals: - Optimize the administration of BLT for patients with depressive episodes. - Gain a deeper understanding of the treatment mechanisms. - Determine which patients benefit the most from the treatment. The specific objectives are as follows: - Investigate whether additional treatments and interventions related to lifestyle and the biological clock can enhance the effects of BLT. - Examine how BLT influences the body's internal clock and sleep quality, and how these factors contribute to the outcomes. - Identify patient characteristics and behaviours that can predict treatment outcomes. - Develop a brain model to better understand the impact of BLT on the brain. In this study, patients will receive BLT with a light intensity of 10,000 lux for 30 minutes each morning over 5 consecutive days. The treatment duration will range from one to three weeks, depending on the improvement of depressive symptoms. Participants will be randomly assigned to one of three groups: - Home - Patients will receive BLT at home, following the standard guidelines for light therapy in the Netherlands. - LightCafé, fixed time: Patients will receive BLT in a café-like setting called the LightCafé, where the focus is not only on symptom improvement but also lifestyle enhancements and fostering social connections. The treatment time will be the same every day. - LightCafé, varying time: Patients will also receive BLT at the LightCafé, with treatment timing varying each day. Additionally, this group will wear glasses in the evening that filter blue light. The study includes a baseline phase of up to two weeks, a treatment phase of up to three weeks, and a three-month follow-up phase. Patients will wear a motion watch to assess sleep-wake behaviour and physical activity during the day. Additionally, they will wear a broach that measures their personal light exposure throughout the day. Eight one-minute questionnaires per day will be sent to the participants' smartphones to assess vitality, sleep, and mood during the treatment. Predictors of treatment response, such as clinical characteristics, sleep measures, circadian parameters, and light-related behaviours, will be evaluated at baseline. In a small group of patients, salivary melatonin curves will be assessed before and after treatment. MRI scans will provide insights into functional and structural brain changes following light therapy treatment.
Objectives: Bipolar disorder (BD) is a chronic and recurrent mental illness characterized by depressive episodes and manic or hypomanic episodes, leading to severe functional impairment and cognitive damage. Unfortunately, it is difficult to accurately distinguish between major depressive disorder (MDD) and BD in the early stages, resulting in misdiagnosis and mistreatment. According to statistics, only 20% of BD patients with initial depressive symptoms receive a correct diagnosis within the first year of onset, with an average delay of 5-10 years from onset to final diagnosis. BD patients are often treated with antidepressant medication systematically due to being diagnosed with MDD, affecting the disease course and clinical outcomes. The current study aims to explore the role of peripheral exosomes as biomarker to distinguish BD from MDD in early stage. Methods: The study includes two stages: the first stage is a case-control study, comparing the concentrations of peripheral blood exosome metabolites (microRNA and related proteins) among three groups (BD patients, MDD patients, and healthy controls, n=30 per group) to identify target microRNA and proteins with statistically significant differences. The "latent class analysis (LCA)" on target microRNA and protein will be performed on all samples to observe whether it can effectively distinguish bipolar disorder, depressive episode, and healthy participants. Then, based on the LCA analysis results, "receiver operating characteristic (ROC)" analysis will be conducted to further determine the optimal concentration cut-off value for each indicator and ultimately determine the target biomarkers. The second stage is a clinical validation study in which subjects, who come from an on-going trial and initiated with a depressive episode and were followed up for five years at least, are divided into two groups (MDD group and BD group, n=20 respectively) based on whether they have hypomanic/manic episodes currently or previously, according to the DSM-5 diagnosed with SCID-5. All target biomarkers will be test in peripheral blood samples reserved at the initial stage to detect whether the diagnosis indicated by the biomarkers is consistent with diagnosis by DSM-5. As well as the accuracy of predicting diagnosis, the correlation between specific biomarkers and treatment response, clinical outcome, and adverse reactions will also be observed. Discussion: It is difficult to explore central nervous system diseases through the peripheral system in the context of the blood-brain barrier. However, exosomes can freely pass through the blood-brain barrier and serve as a good medium for connecting the peripheral system and the central nervous system. This study aims to explore plasma exosome microRNAs and related proteins as biological markers for early diagnosis of bipolar disorder, for example, which microRNAs or proteins are presented in the BD patient group, or what concentrations of microRNAs or proteins are significantly different between the BD patients and MDD patients. Improving the early diagnosis of BD would help develop appropriate clinical intervention strategy, improve the quality of disease management, and significantly reduce the burden of disease. At the same time, this study is also hope to provide a theoretical basis for exploring the pathogenesis of bipolar disorder.
Participation in clinical trials usually favors a particular demographic group. But there is limited research available to explain what study attributes affect the completion of these specific demographic groups. This study will investigate the safety and efficacy of bipolar disorder treatments. The focus will be on tracking the rates of completion and withdrawal among these individuals. It will also try to analyze data from the perspective of different demographic groups to check for recurring trends which might yield insights for the sake of future bipolar disorder study.