View clinical trials related to Major Depression.
Filter by:Researchers are trying to find out if a Stress Management and Resiliency Training (SMART-D) therapy will help with major depression treatment.
This study is designed to determine whether bupropion (vs escitalopram) increases functional connectivity (FC) within reward-related neurocircuits and decreases motivational deficits in depressed patients with increased inflammation and anhedonia. Participants will be randomized to take bupropion extended release (XL) or escitalopram for 8 weeks.
The purpose of this pilot project is to demonstrate feasibility and value of collecting harmonized outcomes measures for major depressive disorder (MDD) in two registries and combining the data to support patient-centered outcomes research.
Working with a health system, the investigators will recruit practices to participate in the pilot study, consent and enroll patients with major depressive disorder, and collect the PHQ-9 from those patients at three timepoints (baseline, 6 months post-enrollment, and 12 months post-enrollment). The PHQ-9 will be captured either at an office visit or directly from patients. The investigators will build and implement an open-source SMART on FHIR app to collect key data from the EHR, combine that data with the PHQ-9 results, and present the measurements back to the clinicians. The investigators will then obtain feedback from clinicians on the value and usefulness of the app.
People who have a severe mental illness can have poorer physical health and higher mortality rates than the general population. Their medications combined with low levels of physical activity and increased sedentary behaviour can general population and may help people with severe mental illness to be more active. A previous feasibility study has been conducted in the UK in a large city with positive findings. The current study will be conducted in rural settings in Northern Ireland and Republic of Ireland. The intervention will last 13 weeks. People with Severe Mental Illness will be randomly assigned into one of two groups. Both groups will get information on the benefits of physical activity. In addition, one group will be shown how to use a step counter to measure their steps, be invited to a weekly group walk, and meet their coach every 2 weeks contribute to this. Walking is a good way to increase physical activity in the to see how they are getting on and to support them. The research team are interested in finding out how willing clinicians are to recruit people into the study, how willing people are to take part, do people then stick with the programme, and if not the reasons for people dropping out. Qualitative findings will explore whether participants feel they benefited from and enjoyed the programme. Findings will be used to investigate the feasibility to conduct a larger trial like this in the future.
The purpose of this study is to compare the efficacy and safety of escitalopram plus PS128 to escitalopram in the acute treatment of patients with major depressive disorder.
Background: Most drugs that treat mood disorders take a long time to work. Ketamine works within hours. A dose can last for a week or more. Certain receptors in the brain might help ketamine work. A drug that blocks these receptors might affect how it works. Objective: To see if the antidepressant response of ketamine is linked to AMPA receptors. Eligibility: Adults ages 18-70 with major depression disorder without psychotic features Design: Participants will be screened under protocol 01-M-0254. They will have blood tests and a physical exam. Participants will stay at the NIH Clinical Center for 5 weeks. Phase 1 lasts 4 weeks. For 2 weeks, participants will taper off their psychiatric medicine. Then they will have the following tests: - Blood draws - Psychological tests - MRI: Participants will lie in a machine that takes pictures of their brain. - MEG: Participants will lie down and do tasks. A cone lowered on their head will record brain activity. - Optional sleep tests: Electrodes on the scalp and body and belts around the body will monitor participants while they sleep. - Optional TMS: Participants will do tasks while a wire coil is held on their scalp. An electrical current will pass through the coil that affects brain activity. For phase 2, on day 0 participants will take the study drug or a placebo orally. While having a MEG, they will get ketamine infused into a vein in one arm while blood is drawn from a vein in the other arm. On day 1, participants will again take the study drug or a placebo orally. On days 3-7, they will repeat many of the phase 1 tests. Days 8 and 9 are optional and include an open label ketamine treatment and many of the phase 1 tests.
The antidepressant medications are among the most commonly prescribed pharmacological agents in patients with mood and anxiety disorder. Despite recent advances in antidepressant pharmacotherapy, there is a pressing need for substantial optimization and improvment of outcome of pharmacotherapy of psychiatric disorders by providing individualized and science-based treatment guidelines. Besides it is rather difficult in clinical practice to predict, which patient will response to a certain pharmacological treatment well and which one less so. Putative predictors of response to antidepressant include demographic and clinical characteristics, personality traits, biological markers and psychophysiological features. Recently the research studies shown that divergences in antidepressant efficacy may be related to genetic variations of patients. The pharmacogenetic studies have multiplied in recent decade due to the impact that such studies may have in everyday clinical practice once reliable predictors could be identified. The pharmacogenetic research using new DNA microarray-based technology can reasonably be expected to contribute to the prediction of likelihood of treatment response and risk of development of adverse side effects in individual patients in case of antidepressant treatment. By reducing costly treatment failures and the likelihood of serious adverse events, pharmacogenetic testing may help to improve the treatment possibilities for chronic diseases, reduce the burden prescription drug costs, and lower the costs of drug development. The further detailed investigation of peripheral gene expression profiles may help to identify responsible genes that underlie the process of development of affective disorders and open novel horizons for understanding molecular mechanisms of psychopharmacological treatment.
The investigators propose to enhance the scalability of family-focused therapy (FFT), a 12-session evidence-based therapy for youth at high risk for mood disorders, through augmentation with a novel mobile phone application called MyCoachConnect (MCC). In adolescents with mood instability who have a parent with bipolar or major depressive disorder, clinicians in community clinics will conduct FFT sessions (consisting of psychoeducation and family skills training) supplemented by weekly MCC "real time" assessments of moods and family relationships; based on results of these assessments and the family's progress in treatment, clinicians will then push personalized informational and coaching alerts regarding the practice of communication and problem-solving skills. The investigators hypothesize that the augmented version of FFT (FFT-MCC) will be more effective than FFT without coaching/informational alerts in altering treatment targets and in stabilizing youths' mood symptoms and quality of life.
This project will combine the data collected from EEG, Eye tracking, structural and functional MRI scans and neuropsychological performance from patients with major depression receiving SSRI treatment. The purpose of this research is to predict the success of the SSRI treatment and to categorize patients into sub-groups according to similar patterns of brain activation to personalize treatment.