View clinical trials related to Depressive Disorder.
Filter by:The objective of the present project is to study the differential effectiveness of three brief self-applied via the Internet interventions for mild to moderate depression: a global protocol composed of several therapeutic components (psychoeducation, cognitive restructuring, behavioral activation, positive psychology, and relapse prevention), a protocol just based on behavioral activation (BA), and a protocol just based on positive psychology (PP). The purpose is to know the specific contribution of each therapeutic components in the treatment of depression.
This is a multicenter, randomized, double-blind, placebo-controlled trial aims to assess the effectiveness of repetitive transcranial magnetic stimulation(rTMS) in treating depression after basal ganglia ischemic stroke and to examine whether such effects are related to restoration of white matter integrity.Sixty-six participants will be recruited from three centers and randomized with a 1:1 ratio to receive active rTMS treatment or sham rTMS treatment in addition to routine supportive treatments.The data of neuropsychological tests and MRI will be collected at 0, 2 and 4 weeks after the commencement of the treatment.
Major depressive disorder (MDD) is a high-disabling disease. But its etiology and pathogenesis is not clear, and early recognition, diagnosis and treatment still has many challenges. Among numerous clinical manifestations of MDD, anhedonia is an important core symptom of MDD, especially in patients with melancholic features. Our previous studies and studies abroad have shown that MDD patients had functional abnormality in reward circuit. The abnormalities of reward-related core areas, such as the prefrontal cortex - nucleus accumbens - ventral tegmental area were closely associated with the development of MDD, and is an important neural basis of anhedonia. This study would take the reward circuit as mainline to carry out the etiology, diagnosis and therapeutic intervention studies of MDD. We would collect MDD patients with melancholic features and other populations with reward dysfunction. The neuroimaging techniques, stress assessment, genetic testing and drug intervention methods would be mainly used in this study. The functional connectivity of reward regions, such as the ventral striatum, nucleus accumben, and ventral medial prefrontal cortex, would be analyzed to identify the dysfunction of reward circuit of MDD, and its implication for early recognition, diagnosis and prediction of treatment efficacy of antidepressants. We would also investigate the effect of genetic and environmental factors on reward function of MDD and its biological basis. Finally, through modulating the reward circuit activity using animal experiments, we would verify and investigate reward dysfunction of MDD and its biological mechanisms. The project is expected to provide for new evidence for the establishment of reward mechanism - based objective diagnosis and treatment optimization strategy of MDD.
This is a preliminary, double-blind clinical trail aimed to investigate whether the combination of fluoxetine with ATP or phosphocreatine has a rapid antidepressant effect. 42 patients with major depressive disorder (Hamilton Depression Rating Scale (HAMD) score >= 20) will be recruited and divided into 3 groups randomly. This study involves two periods. In the first period, one group will be treated with fluoxetine and placebo, one with fluoxetine and ATP, and one with fluoxetine and phosphocreatine for 2 weeks. Placebo, ATP and phosphocreatine will be given intravenously, and fluoxetine orally. In the second period, each patient will be only given fluoxetine for 4 weeks.
The Mood Disorder Cohort Research Consortium (MDCRC) study is designed as a naturalistic observational prospective cohort study for early-onset mood disorders (major depressive disorders, bipolar disorders type 1 and 2) in South Korea.
The purpose of this study is to evaluate the efficacy, safety, and tolerability of levomilnacipran ER relative to placebo in adolescent outpatients (12-17 years) with Major Depressive Disorder (MDD). In addition, the study is designed to obtain pharmacokinetics (PK) data to guide dose selection for future pediatric studies of levomilnacipran.
To compare the efficacy of schema therapy versus active monitoring for women with chronic depression receiving psychiatric care.
This study aims to 1) examine common and specific emotional and cognitive dysfunctions between Major Depression and generalized anxiety disorder; 2) Examine emotional and cognitive dysfunctions between the two disorders and healthy controls; 3) Examine the biomarkers predicting successful therapy or not.
Background: Most medications that treat depression take weeks or months to work. Researchers want to develop fast-acting treatments. One dose of ketamine has a rapid antidepressant effect. For most people, this lasts a week or less. Repeated doses of ketamine may help maintain this effect. Objective: Main Study: To study the effects of ketamine in treating depression. Ketamine Metabolites Substudy: To study how ketamine effects brain chemistry. To study how ketamine effects the brain. This is done by looking at metabolites, which are created when a drug is broken down. Eligibility: Main Study: People ages 18-65 with major depressive disorder and healthy volunteers Ketamine Metabolites Substudy: Healthy volunteers ages 18-65 Design: Main Study: Participants will be screened in another study, with: - Medical and psychiatric history - Psychiatric and physical exam - Blood, urine, and heart tests Participants will be inpatients at NIH for 4 phases totaling 14-20 weeks. Phase I (2-7 weeks): - Gradually stop current medications - MRI: Participants lie and perform tasks in a machine that takes pictures of the body. - Mood and thinking tests - Blood and urine tests - Sleep test: Monitors on the skin record brain waves, breathing, heart rate, and movement during sleep. - Transcranial magnetic stimulation: A coil on the scalp gives an electrical current that affects brain activity. - Stress tests: Electrodes on the skin measure reactions to loud noises or electric shocks. Phase I tests are repeated in Phases II and III and in the final visit. Phase II (4-5 weeks): - 4 weekly IV infusions of ketamine or a placebo during an MRI or MEG. For the MEG, a cone over the head records brain activity. Phase III (optional): - 8 infusions of ketamine over 4 weeks Phase IV (optional): - Symptoms monitoring for 4 weeks - Participants will have a final visit. They will be offered standard treatment at NIH for up to 2 months. Ketamine Metabolites Substudy: Participants will be screened in another study, with: - Medical and psychiatric history - Psychiatric and physical exam - Blood, urine, and heart tests Participants will be inpatients at NIH for 4 days. Study Procedures: Mood and thinking tests Blood and urine tests 1 infusion of ketamine Spinal tap and spinal catheter: Used to get samples of cerebrospinal fluid (CSF). This is a fluid that moves around and within the brain and spinal cord. Studying CSF will help us learn how ketamine effects brain chemistry
The present randomized, controlled trial will compare the cost-efficacy and acceptability of the Unified Protocol in group format against traditional individual Cognitive Behavioral Treatment in a sample of patients with emotional disorders. Ultimately, the goal of the current study is to explore whether the Unified Protocol in group format can be a cost-effective psychological intervention for emotional disorders in the Spanish National Health System, that is, one that generates long-lasting changes in symptoms, while reducing both direct and indirect economic costs associated with the treatment of emotional disorders.