View clinical trials related to Depression, Unipolar.
Filter by:Mood disorders, such as depression and bipolar disorder, are difficult to treat. One reason is that there are no objective ways to measure how these disorders affect the body and respond to different treatments. In this study, researchers want to perform tests on people undergoing clinical care for mood disorders. The purpose is to understand the experience of receiving treatment for depression, bipolar disorder, and suicide risk. We also hope that this study will help us to predict which medications will improve thoughts of suicide. People 18 years or older who are receiving treatment for depression, bipolar disorder, or suicide risk may take part in this study. Participants must have also been enrolled in protocol 01-M-0254. This study will be conducted at the NIH Clinical Center in Bethesda, MD. The study typically lasts up to 12 weeks, but may last longer if a participant s treatment continues past that time. Participants will have weekly interviews and questionnaires while they are being treated for their mood disorder. Other tests are optional and include psychological testing, blood draws, sleep tests, and imaging scans. These will be done at the start and the end of research participation....
In this project, we will A) track the functioning of a collection of potential neurobiological targets for depression over time, B) examine how fluctuations in the functioning of those targets relates to real-world functioning, and C) in a subset of the sample, determine how the functioning in those targets is altered by a single dose of ketamine.
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.
This study will test the effect of a mobile mindfulness-based intervention on reducing post-cesarean delivery pain and preventing postpartum depression.
The aim of this pilot project proposal is to test the hypothesis that decreased sleep slow-wave activity (SWA) observed in individuals with major depressive disorder (MDD) is related to mood dysfunction, and that manipulating SWA may serve to improve mood by normalizing SWA regulation. The investigators propose to enhance SWA during nighttime sleep in a group of 20 antidepressant-free males and females age 25-50 with varying degrees of impairment in mood. Each participant will undergo one baseline night of sleep in the laboratory and then will sleep with the SmartSleep Headband nightly for two weeks in their own home. For one week, slow-wave sleep will be enhanced. On the alternate week, sleep will not be changed. Following the two weeks of sleeping with the device, participants will then spend another night in the sleep laboratory to assess changes in sleep. Mood will be assessed by self-report and clinician-administered scales following the baseline night of sleep, virtually after the first experimental week, and at the conclusion of the study.
This study will determine the effectiveness and safety of S-Ketamine in depression patients undergoing electroconvulsive therapy.
this reseach examines the reliability and validity of 17 items- Hamilton Depression rating scale in Vietnamese population, which has been commonly used in clinical depression practice and study.