View clinical trials related to Treatment Resistant Depression.
Filter by:The purpose of this study is to determine whether combination of antidepressant drugs plus interpersonal psychotherapy is superior to antidepressant drugs alone in treatment resistant depression.
A randomized multicentric parallel arms study involving the use of ketamine for treatment-resistant depression will be held at three national health provider clinics in the Mexican population. The purpose of this study is to determine whether clinical response seen in previous studies is replicable in this population.
This is a randomized, placebo-controlled double-blind cross-over trial evaluating the safety, efficacy, daily functioning, and health-related quality of life of Subcallosal Cingulate Gyrus Deep Brain Stimulation (SCG DBS) for participants with Treatment-Resistant Depression (TRD). A total of 40 eligible participants will be randomized to four treatment sequences (10 participants per sequence). Each participant will be treated over a 6-month period with active or sham stimulation in which both the participants and the attending psychiatrists will be blinded to treatment allocation.
The purpose of this study is to assess the efficacy and safety of olanzapine and fluoxetine compared to placebo and fluoxetine as treatment for treatment-resistant depression (TRD) in Chinese participants.
Repetitive Transcranial Magnetic Stimulation (rTMS) is a non invasive technique which was shown to be effective in the treatment of major depression. The dorsolateral prefrontal cortex (DLPFC) is the anatomic target in rTMS studies and the standard (manual) '5-cm method' for positioning the coil over DLPFC is the reference. Nevertheless, it has been criticized due to poor targeting accuracies attributed to inter-subject variability. Such an inaccuracy could have any therapeutic consequences as a decrease in rTMS efficacy. Preliminary findings suggest that a more reproductible and accurate method, based upon a neuronavigation system could allow for a better efficacy. This finding has to be replicated with sound methodology. Investigator's objective is to compare efficacy on mood of coil positioning based upon a neuronavigation device versus coil positioning based upon the standard method.
This study is looking at the safety and efficacy of low field magnetic stimulation (LFMS) for treating patients with treatment resistant depression who are taking an antidepressant that is not working for them.
This is an ancillary study to a clinical trial that is being conducted at Massachusetts General Hospital. Investigators at MGH are conducting a clinical trial to test the efficacy of ziprasidone together with escitalopram for treatment-resistant depression (NCT00633399). This observational study will involve magnetic resonance scans to examine brain chemistry (neurotransmitter levels), brain activity, and functional connections between brain regions before and after participating in the trial. The neurotransmitters of interest are glutamate, glutamine, and GABA. Comparisons will be made between individuals who receive ziprasidone and individuals who receive an inactive placebo. Differences between participants who respond to standard antidepressants and those who require additional medication will also be examined. All participants will have a baseline magnetic resonance scan before starting medication. The second scan will be after 8 weeks of escitalopram treatment for those who respond or following 8 weeks of escitalopram plus ziaprasidone or placebo (16 weeks after starting) for those who do not respond to escitalopram alone. Participants will complete standard rating scales for depression at each visit.
More than one out of three individuals treated for major depressive disorder (MDD) do not experience a full reduction of symptoms even when treated with adequate antidepressant medication. These individuals may have treatment-resistant depression. This is a condition that contributes to the tremendous costs of MDD, in terms of health care costs, functional impairment (limitation of an individual's functional ability), and diminished quality of life. There is a clear need for personalized medicine, for people at high risk for treatment-resistant depression. If these individuals could be identified early in the course of their depression, they could be recommended for more intensive or specialized interventions. Doing so could improve their likelihood of having a full reduction in their symptoms. Today, there are many treatment options for MDD. Individuals can spend months or years in and out of treatment before receiving one that works for their treatment-resistant depression. The investigators want to study treatment resistant depression by examining specific genes (genotyping) that might influence how your body responds to certain antidepressant medications. This process of examining specific genes is not experimental. To look at your specific genes, the investigators will collect a blood sample. Genes contain the material passed from parent to child that determines the make-up of the body and mind. For example, some genes control the color of your hair or eyes. Genes are contained in your DNA (deoxyribonucleic acid). There are many differences in DNA, from one person to another. These differences may affect a person's chances of having a particular disease.
Genomind has developed and introduced a battery of genetic tests, the Genecept Assay, which clinicians can administer to patients using a simple saliva sample technique. The present study proposes to enroll 1. Subjects (patients who have consented to using the Genecept Assay) and 2. Clinician study participants (clinicians who have ordered the Assay on behalf of their patients). This study will involve the collection of responses from both Subjects and clinician study participants with the intention of correlating this information to Subject genetic data.
Recurrent major depressive disorder affects about 3−5% of the population. It is anticipated that by 2020, depression will be the most common cause of disability worldwide in the 18−55 age group. About two−thirds of these patients respond to first−line treatment (antidepressants). In addition, prolonged administration of antidepressants in patients who respond results in remission in 80% of patients per year. However, a significant proportion of patients either fail to respond in spite of determined pharmacological treatments, electroconvulsive therapy and other treatments or do not achieve sustained remission. The personal, psychiatric, medical, social and economic consequences are devastating for these, treatment resistant, patients. This investigation aims to evaluate the feasibility of deep brain stimulation in patients with treatment resistant depression as a viable alternative to ablative neurosurgery.The hypothesis is that some patients will respond to stimulation in one site rather than the other and that some patients will respond to double rather than single site stimulation.