View clinical trials related to Depressive Disorder.
Filter by:The goal of this clinical trial is to evaluate the effectiveness of the online 6-weeks Mindfulness-Based Cognitive Therapy (iMBCT) in depressed sample and compare the guided intervention to an unguided one. The main questions the study aims to answer are: - To what extent completing iMBCT will reduce the severity of depressive symptoms in mild to moderately depressed sample? - What are the differences in participants who completed the program or responded to treatment and those who discontinued it? - What are the differences in treatment effect between two active conditions (guided and unguided iMBCT) and a passive one - waiting-list group? Researchers will compare two iMBCT interventions with a waiting-list group to assess the therapeutic effects of iMBCT on depression, anxiety and other measures related to the mental health.
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.
The proposed study will assess the combined effect of perampanel and ketamine on the anti-depressant response in individuals with treatment resistant depression. The purpose of this study is to test the hypothesis that stimulation of Alpha-Amino-3-Hydroxy-5-Methyl-4- Isoxazole Propionic Acid receptors (AMPAR) is critical to the anti-depressant response of ketamine.
Major depressive disorder(MDD) is a complex and heterogeneous mental disorder. Repeated transcranial magnetic stimulation (rTMS), as a non-invasive neuroregulatory technique, has shown a promising function in the treatment of depression. Theta-burst transcranial magnetic stimulation (TBS) model significantly shortened the duration of physical therapy treatment, and iTBS under the accelerated model (The latter is referred to as aiTBS)showed promising therapeutic effect. However, whether aiTBS has a better and faster curative effect in the first untreated or recurrent unmedicated MDD patients and the mechanism of its alleviation of depressive symptoms remains unclarified. This project intends to verify changes in CAMKII levels, CAMKII molecules and GABA receptors in brain-derived exosomes in normal controls and patients who received sham, aiTBS and high-frequency (10Hz) stimulation respectively. Neuroimaging and TMS-EEG were used to pinpoint the target of stimulation and to record the changes of brain waves before and after treatment in real time. To clarify the neurobiological mechanism of aiTBS rapidly improving depression, and to provide a new strong evidence for clinical transcranial magnetic stimulation for accurate treatment of MDD patients.
The goal is to study the effect of lithium compared to cariprazine in patients with depression in a bipolar disease. The main question it aims to answer is: Difference in change between the two groups from baseline to after 8 weeks treatment on Hamilton Ratings Scale for Depression, 6-item version (HDS-6) Participants will be randomized to treatment with either lithium or cariprazin. - Will meet for interview and ratings 4 times during study period. - In two meetings, there will be made blood samples and ECG. At one meeting also a Urine sample. - Will be contacted for telephone interviews at 6 occasions.
Given the growing evidence that aerobic increases cortical excitability and promotes neuroplasticity, the scientific premise for its potential priming effect on the brain is strong. Combining AE with rTMS may produce a neural environment optimized for a robust physiological effect of rTMS, thereby leading to improved depression outcomes. With positive findings, this study would provide preliminary support for an innovative, safe and feasible approach for improving outcomes for this significant public health problem.
The purpose of this research is to see if information from blood and data from smartwatches can be combined to help diagnose depression and determine if transitions between active depression and treated depression can be predicted.
A large body of evidence on depression heterogeneity point to an "immunometabolic" subtype characterized by the clustering of immunometabolic dysregulations with atypical behavioral symptoms related to energy homeostasis. Motivational and motor impairments reflected by symptoms of anhedonia and psychomotor retardation in major depression are closely related to alterations in energy homeostasis, are associated with increased inflammation, and may be a direct consequence of the impact of inflammatory cytokines on the dopamine system in the brain. In the proposed project, the investigators will examine the effect of dopamine stimulation on motivation and motor function in patients with major depression and healthy controls and the role of inflammation using a double-blind, randomized, placebo-controlled, cross-over design. If successful, this study would provide crucial evidence that pharmacologic strategies that increase dopamine may effectively treat inflammation-related symptoms of anhedonia and psychomotor retardation in major depression.
The purpose of this study is to identify a tolerable dose for postpartum ketamine infusion using a maximum tolerated dose (MTD) 3+3 design. A loading dose over 1 hour will be the MTD variable to be tested, as our data suggest that ketamine side effects occur with the loading dose. The investigators hypothesize that subanesthetic ketamine dose will be well tolerated and any noted side effects will be rated acceptable by postpartum women following cesarean delivery.
This study was a single-arm, non-randomized, open-label clinical study to assess dopamine transporter occupancy in the brain of healthy adults using 11C-CFT positron emission tomography (PET)