View clinical trials related to Major Depressive Disorder.
Filter by:Depression is the most common mental disease and the second leading cause of chronic disease burden, which is closely related to suicidal behavior. The diagnosis and treatment of depression still lack of effective biological indicators, and about 30% of patients with depression still can not relieve their depressive symptoms after treatment. Previous studies have found that ATP release from astrocytes plays an important role in the occurrence, development and treatment of depression. Epoxy eicosotrienes (eets) are closely related to the function of the nervous system and may be the pathophysiological mechanism of depression. Soluble epoxide hydrolase (SEH) can regulate ATP release by affecting EET degradation, leading to depression like behavior and antidepressant effect, and sEH is closely related to cognitive function of depression.
The purpose of this research study is to determine if application of near infrared energy to the forehead can change blood flow in the brains of people with depression. Near infrared energy is like light but is not visible to the human eye.
This study will examine if brain insulin resistance is a feature of depression in humans using magnetic resonance imaging (MRI) measures sensitive to brain insulin action. This study will examine adolescents, as depression onset commonly occurs during this age, and the impacts of cumulative medication exposure and other lifestyle-related confounds are also lower in this age group, improving our ability to understand the underlying biology.
This study will determine the effects of pregnenolone on brain function, inflammation and depressive symptoms in people with HIV who have depression. Participants in this study will receive a pill of either pregnenolone or placebo, and can stay on their current antidepression medications. Brain imaging and behavioral assessments will be performed during the study.
This research program will examine the feasibility as assessed through rates of adherence, tolerability, and safety of the ketogenic diet for individuals with Major Depressive Disorder (MDD) who are not achieving symptomatic remission with first line antidepressants such as the Serotonin Selective Inhibitors (SSRIs). Driven by robust data on the benefits of ketogenic diet in epilepsy and by preliminary data in animal models demonstrating its effects on depressive behaviors, there is a hypothesis that ketogenic diet could be useful to treat residual depressive symptoms. As deficits in reward and pleasure (anhedonia) are the most common residual symptoms in MDD individuals with partial response to SSRIs, the ketogenic diet could be a potential adjuvant in the treatment for depression. In addition, a preliminary assessment of neuroplasticity-related biomarkers in the plasma to determine possible biological substrates for the mechanism of action of ketogenic diet in the brain will be conducted.
To evaluate, over a period of six months, the links between physiological data collected such as electrodermal activity (or Galvanic Skin Response), motor activity measured by accelerometer, heartbeat measured by photoplestimograph and the clinical evaluation performed by the physician, in patients suffering from major depression disorder.
This study evaluates a schedule of precise repetitive transcranial magnetic stimulation for depressive adolescent with anhedonia. In this randomized controlled trial, half of the participants will receive repetitive transcranial magnetic stimulation, and the other will receive sham stimulation.
The study is planned as a randomized, double-blind, active comparator-controlled and sham-controlled parallel trial, in which raters and participants will be blinded to the group selection. A total of 60 participants, meeting the eligibility criteria, will be enrolled in the study and divided randomly into 4 groups (2 experimental ones with active rTMS or iTBS and 2 controls with sham-placebo rTMS or iTBS stimaltions).
Background: Nicotine dependence leads to about 480,000 deaths every year in the United States. People with major depressive disorder (MDD) are twice as likely to use nicotine compared to the general population. They have greater withdrawal symptoms and are more likely to relapse after quitting compared with smokers without MDD. More research is needed on how nicotine affects brain function in those with MDD. Objective: To understand how nicotine affects symptoms of depression and related brain function. Eligibility: People aged 18 to 60 years with and without MDD who do not smoke cigarettes or use other nicotine products. Design: Participants will have 2 or 3 study visits over 1 to 3 months. Participants will have 2 MRI scans at least 1 week apart. Each scan visit will last 5 to 7 hours. At each scan, they will have urine and breath tests to screen for recent use of alcohol, nicotine, and illegal drugs. Before each scan, they will take 1 of 2 medications: nicotine or placebo. Participants will receive each medication once. They will not know which medication they are receiving at each scan. For each MRI scan, they will lie on a table that slides into a cylinder. Sometimes they will be asked to lie still. Sometimes they will complete tasks on a computer. Tasks may include identifying colors or playing games to win money. Each scan will take about 2 hours. Participants will answer questions about their thoughts, feelings, and behaviors before and after each scan. They will have a blood test after each scan.
The main goal of this research is to use behavioral, brain, and clinical data to determine which type of antidepressant might be optimal before people with depression start treatment.