View clinical trials related to Treatment Resistant Depression.
Filter by:This study evaluates an association between different dosage and the antidepressant efficacy of theta burst stimulation in patients with treatment-resistant depression. In a double-blind design, All patients are randomized to three groups, i.e. standardized dosage intermittent theta-burst stimulation treatment, high dosage intermittent theta-burst stimulation treatment or sham treatment.
In this observational, non-invasive clinical study different neurobiological analyses will be performed in a group of patients with severe treatment resistant major depression participating in an efficacy study of deep brain stimulation of the superolateral branch of the medial forebrain bundle (slMFB) - FORESEE III.
Treatment resistant depression (TRD) is a major global health concern, and there is a crucial need to develop novel effective treatments. The medial forebrain bundle (MFB) is a recently described DBS target, with reported rapid onset of antidepressant effects. A recent small randomized trial reported a 100% response rate. The subcallosal cingulate cortex (SCC) is the most commonly used target in DBS for depression. Herein, the investigators will conduct a sham-controlled randomized trial of DBS to the MFB or SCC for TRD.
Study of individualized accurate targeting rTMS intervention on motivational anhedonia of treatment resistant depression and brain network mechanism
This is a pilot interventional study to investigate the acceptability, tolerability, and side effect profile for varying numbers of treatment sessions/day of a new rTMS treatment in adolescents with treatment-resistant depression (TRD). Conventional rTMS has been limited to sinusoidal biphasic electromagnetic pulses. In contrast, the First Dawn rTMS system by NeuroQore can sustain a repetitive linear asymmetric pulse. In addition, identification of rTMS treatment sites in adolescents with TRD most often relies on anatomic landmarks, but the First Dawn rTMS system utilizes personal fMRI data in a novel algorithm to determine where to apply the rTMS in each patient. Based on adult data in healthy volunteers and patients with TRD, the investigators propose that the First Dawn rTMS system will be acceptable and well-tolerated by adolescents and will have minimal side effects. Please see https://clinicaltrials.gov/ct2/show/NCT02667041 for details on the completed pilot study in adults. The investigators aim to investigate acceptability, tolerability, and side effects in groups of patients receiving treatment in numbers of sessions/day that are gradually accelerated over the course of the study. Results will be used to inform the development of a randomized controlled trial.
According to the World Health Organization, MDD is attributed as the leading cause of disability worldwide, leaving 300 million individuals affected. Despite the efficacy of pharmacotherapy, a subset of MDD patients, classified as TRD, exhibit suboptimal response and thus require alternative treatment options such as rTMS. Emotional-laden "hot"and Neutral "cold" cognitions are shown to be dysfunctional in depression. Potential pro-cognitive effects remain inconclusive. In this study the investigators seek to investigate whether visual scanning patterns of emotionally laden images may be a biological marker and predictor of rTMS antidepressant efficacy. If so, then changes in visual scanning patterns are expected to precede clinical symptom improvement. Furthermore, changes in visual scanning patterns (which characterizes the state of hot cognition) are compared simultaneously to changes in cold cognition in order to elucidate the neural mechanisms underlying rTMS-induced changes in cognition. It is hypothesized that participants who are responders to rTMS will exhibit a decrease in the amount of time spent looking at dysphoric images will precede clinically detectable changes in mood as measured by a reduction in the scores on the 17-item Hamilton Depression Rating Scale (HDRS-17). The hypothesis for this study corresponds to the alleviation of the dysfunction within the hot cognitive system as a result of rTMS and a potential compensatory effect of cold cognition as a natural reaction of resetting the allocation of cognitive resources.
This study evaluates an accelerated schedule of theta-burst stimulation using a transcranial magnetic stimulation device for treatment-resistant bipolar depression. In this open-label study, all participants will receive accelerated theta-burst stimulation.
Treatment resistant depression remains a major problem for individuals and society. Surgical procedures may provide relief for some of these patients. The most frequently considered surgical approach is deep brain stimulation (DBS) of a part of the brain called the subcallosal cingulate region. However, the effectiveness and safety is not well established. The investigators will use a novel approach using advanced imaging technique (magnetic resonance tractography) to evaluate the feasibility and safety of this surgical approach. An innovative method for the definition of DBS target will be applied that redefines the concept of targeting as one of targeting a symptomatic network rather than a structural brain region using subject-based brain anatomy to define the target location. The correlation between imaging findings at baseline with the mood score changes at different time points of the study will be investigated.
Major depressive disorder (MDD) is a leading cause of disability worldwide. Up to 50% of patients experience treatment resistant depression (TRD), which accounts for a vast majority of disease burden. Current medications for TRD have limited efficacy and can be associated with intolerable side effects. Therefore, there is a need for finding new treatment targets. Accumulating evidence suggests some patients with MDD including those with TRD, display brain inflammation. Thus, patients with TRD may benefit from medications that can reduce this inflammation. Minocycline is an antibiotic which can cross the blood-brain barrier and has effects on several systems implicated in depression. The principal investigator led the first pilot study of minocycline as an add-on treatment in TRD demonstrating that it led to a significant reduction in depressive symptoms compared to placebo and these findings require replication in a larger sample to confirm the efficacy and tolerability of this treatment approach. This study is a 12 week, double-blind, placebo-controlled trial of minocycline as add-on treatment for patients suffering from a major depressive episode who have failed to respond to antidepressant treatment, confirmed by the Structured Clinical Interview for DSM-5 (SCID-5) and the Antidepressant Treatment History Form (ATHF) at screening. After screening and randomization to the two parallel arms of the trial, 50 patients will receive minocycline added to treatment as usual (TAU) and 50 patients will receive placebo added to TAU. Clinical assessment will include the Hamilton Depression Rating Scale (HRSD-17), Clinical Global Impression scale (CGI), World Health Organization Quality of Life Short Form (WHOQOL-BREF), and Generalized Anxiety Disorder scale (GAD-7), administered at each study visit (baseline, week 2, 6, and 12). Side effects checklists will be undertaken at each visit. Minocycline will be started at 100 mg once daily and will be increased to 100 mg twice daily at two weeks. Secondary outcomes include inflammatory biomarkers measured at baseline, weeks 6 and 12. This trial will provide further evidence of minocycline's efficacy and acceptability as a treatment option for patients with TRD and provide insights into its mechanism of action.
This study aims at investigating the persistence of antidepressant effect of Nitrous Oxide (N2O) for Treatment-Resistant Depression(TRD). The investigators also aim to assess the effect of N2O on the electroencephalograph, multimodal magnetic resonance imaging(MRI), blood cytokines, feces bacteria flora and neuropsychological performance in patients with TRD. The investigators further aim to identify the predictors of N2O's antidepressant effeect using the above techniques.