View clinical trials related to Depressive Disorder, Major.
Filter by:Vildagliptin, an antidiabetic drug that inhibits the dipeptidyl peptidase- 4 (DPP-4), increases glucagon-like peptide-1 (GLP-1) and regulates blood glucose levels, favoring weight loss and lowering cardiovascular risk. A retrospective longitudinal study by Rizzo et al. showed that DPP-4 inhibitors administration could have protective effects against cognitive decline in diabetic elderly. Is has been observed that GLP-1 affects brain metabolism, increases neuritic growth, and protects neuronal cells from oxidative stress and death.
Mood disorders are associated with significant financial and health costs for the United States, partially due to cognitive problems in these patients that can worsen disease course and impair treatment response. This study proposes to use smartphone-based technology to monitor cognitive problems in patients with mood disorders by linking brain network changes with predicted worsening of mood symptoms. The proposed study will provide evidence for using smartphone-based passive sensing as a cost-effective way to predict illness course and treatment response.
Depression is a severe mental disorder that affects 5-7% of Belgians each year. Unfortunately, many individuals with depression do not seek professional help, and if they do seek professional help, waiting lists for psychotherapy are typically very long. To help resolve this problem, this study aims to investigate whether blended therapies, i.e. therapies that consist of a mixture of face-to-face sessions and online sessions, are (cost-)effective as a treatment for depression, and whether they are as (cost-)effective as traditional treatments which consist of face-to-face sessions alone. Should this be the case, then blended therapy can be implemented on a large scale in mental health care, as it could provide a more cost-effective means of helping individuals with depression. This study also aims to investigate whether certain patient features, such as the severity of depression and personality traits, may influence the efficacy of (blended) psychotherapy for depression. Finally, we will also investigate patients' attitudes towards and experience of blended therapy.
This study investigates how remitted individuals with past major depressive disorder (MDD) make approach-avoidance decisions and which brain regions are implicated in such decisions. Information collected through MRI and behavioral tasks will be used to predict depressive symptoms in the future.
The MOOD study will evaluate the safety and efficacy of a noninvasive, self-administered external Combined Occipital and Trigeminal Neurostimulation (eCOT-NS) treatment for Major Depressive Disorder (Relivion®DP). This is a prospective, multi-center, 2-arm randomized, double-blind, parallel-group, sham-controlled study. The study will include the following stages: 1. Screening, Eligibility evaluation and Randomization to Relivion®DP vs. Sham control (1:1 randomization) (Baseline - Day 0). 2. Daily treatment period: Active/Sham (Group A/B) treatment protocol (Baseline to end of 8 weeks). 3. Open label phase: Active treatment period of additional 8 weeks. After completion of the open label period the subject's participation in the study will be over.
This is an observational neuroimaging study assessing the effects of TMS on the brains of patients with unipolar depression.
In Canada, approximately 20% of patients with Major Depressive Disorder (MDD) have treatment-resistance and fail to respond to trials of pharmacotherapy or psychotherapy. Although the treatment of choice has historically consisted of electroconvulsive therapy (ECT), this is not always feasible or practical, and carries a risk of side-effects that may be unacceptable to certain patients. In this pragmatic, multi-site, placebo-controlled and double-blinded clinical trial, participants with ultra treatment-resistant MDD will be randomized to receive either active or sham transcranial direct current stimulation in addition to their usual treatment. Ultra treatment-resistant depression will be operationally defined as MDD that has failed to respond to at least five previous trials of antidepressants at sufficient doses, or ECT, or ketamine. Patients will receive a total of 30 active or sham treatment sessions (5 per week), for 30 minutes per session. In both groups, the anode will be placed over the left dorsolateral prefrontal cortex (position F3), and the cathode over the right dorsolateral prefrontal cortex (position F4). Patients in the sham group will receive electrical stimulation at 2 mA for less than 30 seconds, whereas patients in the active group will receive that level of stimulation for the entire duration of treatment. The study's primary outcome is the change in score on a clinician-graded depression inventory (the Montgomery-Asberg Depression Rating Scales). Secondary outcomes include change in scores on a self-administered depression rating scale and measurement of function scale. Information on language ability will also be collected, as will data on side-effects of treatment. Scores will be collected before the trial start, after every 10 sessions, and one month after trial completion.
Depression is one of the most important causes of disability in the world today, with major personal, social and economic costs. Although some moderately effective drug treatments are already available, about a third of patients with major depressive disorder (MDD) remain depressed despite current treatment. There is growing evidence that inflammation - the response of the body's immune system to physical and social stresses - can cause depressive symptoms in some patients. It is therefore predicted that anti-inflammatory drugs could have anti-depressant effects and the research team aims to test this using a new drug, JNJ-54175446, which blocks the activity of a receptor called P2X7. P2X7 is present on many immune cells and plays a key role in the release of inflammatory molecules during stress, which may be linked to stress-related depression. The research team will recruit approximately up to 142 participants with MDD to this clinical trial. Patients will have moderate-severe depressive symptoms despite ongoing treatment with a conventional anti-depressant drug, and they will have blood test results at screening that indicate they are likely to have active P2X7 signalling in the brain. Eligible participants will be randomly allocated to receive either 50mg/day JNJ-54175446 or placebo for 8 weeks. Participants will be assessed at weeks 2, 5 and 8 using a standard clinical depression scale and the scores compared between those treated with placebo and those treated with JNJ-54175446. To understand more about the effects of JNJ-54175446 on the immune system and the brain, patients will also complete additional blood tests, questionnaires and magnetic resonance imaging (MRI) brain scans at different visits throughout the trial. The trial will be carried out across 5 centres in the UK.
Of the estimated 30 million Americans who suffer from Major Depressive Disorder, approximately 10% are considered treatment resistant. Deep brain stimulation (DBS) to a region of the brain called the subcallosal cingulate (SCC) is an emerging strategy for treatment resistant depression (TRD), which involves placement of electrodes in a specific region of the brain and stimulating that area with electricity. This is believed to reset the brain network responsible for symptoms and results in a significant antidepressant response. A series of open-label studies have demonstrated sustained, long-term antidepressant effects in 40-60% of patients who received this treatment. A challenge to the effective dissemination of this fledgling treatment is the absence of biomarkers (objective, measureable indications of the state of the body and brain) to guide device placement and select stimulation parameters during follow-up care. By using an experimental prototype DBS device called the Summit RC+S (Medtronic, Inc) which has the ability to both deliver stimulation to and record electrical signals directly from the brain, this study aims to identify changes in local field potentials (LFPs), specific electrical signals that are thought to represent how the brain communicates information from one region to another, to see how this relates to DBS parameter settings and patient depressive symptomatology. The goal of this study is to study LFPs before and during active DBS stimulation to identify changes that correlate with the antidepressant effects of SCC DBS. The study team will recruit 10 patients with TRD and implant them with the Summit RC+S system. Participants will be asked to complete short questionnaires and collect LFP data twice daily for the first year of the study, as well as have weekly in person research procedures and assessments with the study team for up to one year. These include meetings with the study psychiatrist, psychologist, symptom ratings, and periodic EEGs (scalp brainwave recordings). A brief discontinuation experiment will be conducted after 6 months of stimulation, in which the device will be turned off and patterns of LFP changes will be recorded. The entire study is expected to last about 10 years, which is the expected life of the battery that powers the device. All participants are required to live in the New York metropolitan area for the first two years of the study.
This early-stage trial aims to examine the feasibility, tolerability, and safety of Floatation-REST (Reduced Environmental Stimulation Therapy) or an active comparison condition in 75 participants with clinical anxiety and depression.