View clinical trials related to Depressive Disorder, Major.
Filter by:Patients with severe mental illness (SMI) die younger than persons in the general population. Much of the excess mortality for SMI patients is attributable to cardiovascular disease, and is exacerbated by treatment with second-generation antipsychotics (2GAs). Although the cardiovascular risks are well-known, and safe, efficacious therapy exists, few SMI patients receive cardiovascular prevention drugs. Care delivery fragmentation and poor patient adherence are central problems to reducing cardiovascular risks for patients with SMI. To address these problems, we propose to conduct a multi-site, open-label, randomized controlled trial comparing an initial treatment strategy of free, fixed-doses of two generic, cardiovascular prevention drugs (statins and angiotensin drugs) delivered within mental health clinics versus usual treatment. The study will include adult patients (18+ years old) with schizophrenia, schizoaffective disorder, bipolar disorder, major depressive disorder, or psychosis not otherwise specified (NOS) who have received 2GAs treatment within the past six months from within four mental health clinics in the Boston area. We have three aims: 1) to compare the proportions of subjects in each arm who are receiving cardiovascular drug treatment and are adherent to therapy during 12-months of follow-up; 2) to compare changes in composite (e.g., Framingham scores) and individual (e.g., lipid levels) cardiovascular risk factor levels using an intent-to-treat (ITT) approach; and 3) to compare risk factor levels, accounting for variation in adherence over time, using causal inference techniques to estimate the per-protocol effect of the intervention. Our three aims examine whether this low cost, streamlined treatment strategy increases the numbers of subjects receiving cardiovascular prevention therapy and improves cardiovascular risk levels. We will follow subjects for 12 months, and collect interview and biometric data at baseline and over the following 12 months. Subjects will have the option to continue for another 12 months, during which we will continue to collect interview and biometric data, but will not prescribe cardiovascular medications. This population-based initial treatment strategy could be an effective and efficient approach for overcoming traditional barriers to cardiovascular disease prevention within the SMI population. Findings from this study will inform efforts to improve care and outcomes, and to enhance survival for patients with severe mental illness.
Transcranial magnetic stimulation (TMS) is an effective alternative for pharmacotherapy in major depressive disorder, but the effectiveness is not clear due to stimulated region, frequency and intensity of magnet field. Standard TMS techniques only can stimulate superficial cortical areas as the electric field decreases rapidly as a function of tissue depth,while depression is also interconnected with deeper neuronal regions. Deep-brain magnetic stimulation (DSM, or deep TMS, DTMS) allows stimulation of deeper cortical regions. Previous research has demonstrated that alpha frequency (8-13 Hz) EEG activity may have particular relevance to the response to antidepressants, and reduction of alpha frequency (8-13 Hz) could lead to negative symptoms. It has been reported that both alpha frequency and low-field magnetic stimulation could improve depressive symptoms. The objective of this study is to compare the effectiveness of the two different parameters of DMS in the treatment of major depressive disorder. The changes of brain derived neurotropic factor (BDNF) are also investigated to make a relevant analysis of the improvement of depressive symptoms.
The investigators are conducting a research study to learn about the safety and benefit of using a medication called buprenorphine for patients with difficult to treat depression. This research study is testing whether combining two medications will be effective in treating depression when initial treatment with just one antidepressant does not relieve the depressive symptoms; this is what is called "difficult to treat depression" or "treatment resistant depression". The two medications the investigators are using are: an anti-depressant medication called venlafaxine extended release (venlafaxine XR), which is the generic form of Effexor, and buprenorphine. Buprenorphine is a medication that is FDA approved for the treatment of opioid dependence. The investigators are testing whether adding buprenorphine to venlafaxine XR enhances treatment response.
The overall goal of the proposed project is to investigate the neuronal pathways regulating the effects of social acceptance and rejection in healthy controls and patients with Major Depressive Disorder (MDD). Social acceptance and rejection are defined as the explicit declaration that an individual is liked or not liked. Social acceptance can boost one's self-esteem and mood, whereas rejection can lower them. The neurological relationship between social acceptance/rejection and depressive symptoms is not known. Using functional magnetic resonance imaging (fMRI), it is hypothesized that social feedback will activate a specific interconnected neuronal pathway involved in social separation and reward. Executive functioning and response to monetary reward will also be assessed during fMRI using two additional tasks (monetary incentive delay, parametric go no-go) to determine how these cognitive brain functions regulate responses to social feedback.
Major depressive disorder (MDD) is the leading cause of disability in the developed world and is associated with lost productivity, increased health care utilization, and mortality. Several empirically supported treatments, such as antidepressant medication and cognitive behavioral therapy, exist for the treatment of MDD; however, studies have shown that as many as 34% of individuals do not respond to these treatments. Exercise and stretching interventions represent alternative strategies associated with strong effect sizes in past studies. Additionally, exercise has been shown to enhance cognitive functioning, especially attention and memory. This study aims to investigate the effect of a combined aerobic exercise and behavioral activation treatment (BA) for MDD. Behavioral activation treatment involves completing both pleasant and mastery-based activities with the goal of enhancing mood. The current study will recruit 32 MDD patients for an active treatment phase of nine 60-90 minute sessions (6 weekly sessions and 3 biweekly sessions) of either BA plus exercise (BA+EX) or BA plus stretching (BA+STR). The purpose of this study is to identify if adding aerobic exercise to a brief psychosocial treatment can improve mood above and beyond an active control condition.
The purposes of this project are to examine the feasibility, safety, tolerability and clinical effect of low-dose buprenorphine as a novel treatment for late-life treatment-resistant depression and to develop preliminary data about mechanism of action.
This study will evaluate a Smartphone intervention for depression and anxiety that uses machine learning to tailor treatment for patients. The intervention, referred to as IntelliCare, delivers patient-specific treatment material and motivational messaging via a mobile phone, to help individuals with depression and/or anxiety. Information and data received from the patient will inform the tailored treatment approach through machine learning. The purpose of this study is to obtain preliminary information on the feasibility and effectiveness of IntelliCare in improving symptoms of depression and anxiety.
To examine whether the medial prefrontal cortex displays an increased activity during self-referential processing among remitted depressed patients compared to healthy controls
The drug Ketamine, available in medical practice since the late 1960s, is currently used for inducing general anesthesia or sedation during medical procedures. When given slowly as an injection into a vein, ketamine is shown to produce a very rapid effect on depression and to improve depressive symptoms within hours to days. By studying patients who receive a ketamine IV infusion, as an add-on treatment for depression, investigators may start to understand how changes in the brain or in gene function relate to getting better over a very short period of time. In this study, the investigators will enroll 60 patients currently ill with major depression selected to receive IV ketamine therapy under medical supervision. To study neurobiological changes relating to symptom improvement, the investigators will use advanced brain scans to measure brain structure, chemistry and function. Blood samples will measure changes in gene regulation and immune system response. Although some people have a rapid antidepressant response to ketamine, others do not respond. Also, antidepressant effects after ketamine usually wear off within days to weeks. We will determine if up to four doses of ketamine delivered two to three times a week may prolong antidepressant response to ketamine therapy. To determine the durability of ketamine treatment for depression, patients will be monitored by phone and via electronic devices twice a week for up to five weeks and will return for a final assessment when their symptoms return. For this trial, brain and blood sample measurements will occur before and after a patient receives their first ketamine infusion. Patients who do not remit after an initial dose of ketamine, will receive up to three additional ketamine treatments. Mood will be measured 24-hours after each subsequent ketamine infusion and brain and blood measurements be repeated at the time of remission or after the fourth ketamine infusion if remission does not occur. Patients will return for a final brain scan and blood sample when their depressive symptoms return or at five weeks if they continue remission. Investigators will able to see how changes brain measurements, gene regulation and immune response relate to improvements and relapse of depressive symptoms with ketamine IV therapy. The ketamine infusion sessions will occur at a special research unit (CTRC) at UCLA.
This study will evaluate the efficacy and safety of ALKS 5461.