View clinical trials related to Treatment Resistant Depression.
Filter by:Evaluate the effects and safety of Deep Brain Stimulation (DBS) to treat on patients with Treatment-Resistant Depression (TRD) and using functional magnetic resonance imaging (fMRI)to evaluate the influence of acupuncture on patients, which will be afford objective evidence for the mechanism of Acupuncture on depression.
The objective of this Implementation Trial is to evaluate the implementation of evidence based practices for Bipolar Disorder and Treatment Resistant Depression in small rural Federally Qualified Health Centers. The evidence based practices chosen and adapted by Health Center providers and patients in consultation with clinical experts include: screening for and diagnosing Bipolar Disorder, prescribing mood stabilizers, on-line cognitive behavioral therapy, on-line peer support, collaborative care management and tele-psychiatry consultation. A quasi-experimental study design will be used, with each of the six participating Federally Qualified Health Centers choosing one implementation clinic and one control clinic. Implementation outcomes include: reach, adoption, implementation-fidelity and effectiveness. Providers and patients may choose to use all, any or none of the evidence based practices based on their needs and preferences. Data will be collected from chart review and patient surveys will be administered by an Interactive Voice Response telephone system.
We propose a clinical study of medial forebrain bundle DBS as a treatment in 20 patients with treatment refractory depression (TRD). Data from the University of Bonn indicates that surgical lesions of the medical forebrain bundle can produce therapeutic benefits in patients with depressive disorders, and suggest that DBS at the same site may also reduce symptomatology in these TRD patients (Schaepfer, 2013). Depression affects up to 10% of the US population and of those at least 10-15% do not benefit from therapies hence why we must explore new treatments. The Perceptâ„¢ PC system manufactured by Medtronic Neurological will be used in this study. Study subjects will be between the ages of 22 and 70 years of age and suffer from TRD, have failed multiple treatment regimens, including ECT, and remain symptomatic. Those identified as TRD patients will then be enrolled in a clinical pilot study investigating DBS, targeting the MFB.
The goal of this study is to use the Activa Primary Cell + Sensing (PC+S) device to study Latent Field Potential (LFP) in the brains of people with Treatment Resistant Depression (TRD) before and during active stimulation. The ultimate goal is to understand the neural network that causes TRD and the changes that DBS cause in that network that results in the antidepressant effects.
Depression carries the largest burden of all medical disorders in middle to high income countries, as determined by the World Health Organization. Despite many antidepressant strategies, only a third of patients get well after their first treatment and a third remain ill after several treatments. Moreover, antidepressant treatments all have a delayed action ranging up to several weeks. Ketamine (KET) has been used for decades as a sedative and anesthetic. In treatment-resistant depressed patients(TRD), an intravenous dose much lower than necessary for anesthesia may produce a robust antidepressant effect and may even abolish suicidal thoughts within hours, peaking within 24 hours. But, its antidepressant effect generally lasts only days.Previous studies examining KET in TRD have been critiqued for lack of an effective placebo measure due to brief perceptual experiences associated with KET. Thus, the current study compares KET against a short-acting sedative. The phases of this study compare response to a single KET injection to 6 injections over 2 weeks. Next, KET responders are given 1 injection a week for 3 weeks of either KET or the sedative agent to determine if beneficial effects of KET are maintained, and to assess duration of its benefits after repeated administration. The genetic profile of patients for a substance promoting contacts between cells and brain will be determined to investigate if response to KET could be predicted with that blood test. This substance, as well as several chemicals that produce inflammation, will also be measured in the blood to investigate their role in the effect of KET. Patients will receive, in total, no more than the equivalent of two to three anesthetic dose of KET. Results from this study will help establish the beneficial effects of a single KET injection as a rapid intervention for major depression, and to investigate the possibility of obtaining a prolonged antidepressant effect with repeated injections.
This is a double-blind, randomized, sham-controlled phase II study of the effects of Low Field Magnetic Stimulation (LFMS) on brain circuitry of adults with treatment-resistant Major Depressive Disorder (MDD). Eligible subjects will be randomly assigned to double-blind treatment with three 20 minute sessions of either (1) active LFMS or (2) sham LFMS. Resting state fMRI will be performed at baseline and following the third and final treatment session.
To determine the effect of ketamine, compared to propofol, when used an an anesthetic agent for electroconvulsive therapy (ECT) in the treatment of major depressive disorder (MDD). We hypothesize that ketamine, compared to propofol, will improve the the symptoms of MDD when used as the anesthetic agent to facilitate ECT. Additionally, we hypothesize the dissociative and cardiovascular effects of ketamine will be minimal.
This study is looking at the efficacy, durability, safety, and tolerability of multiple single doses of Ketamine vs. active placebo for treating patients with treatment resistant depression who are taking an antidepressant that is not working for them.
This study is looking at the efficacy, rapidity, safety, and tolerability of two doses of oral CERC-501 for treating patients with treatment resistant depression who are taking an antidepressant that is not working for them.
In this pilot study, we propose to test whether high frequency stimulation of the subcallosal cingulate (SCC) is a safe and efficacious antidepressant treatment in five TRD patients, to compare the effects of left-sided vs. right-sided stimulation, and to investigate potential mechanisms of action of this intervention. Importantly, this study will be used to assess the need for and assist in planning a larger, more definitive trial of SCC DBS for TRD.