Active clinical trials for "Depressive Disorder, Treatment-Resistant"

The overall goal of this study is to map the spatiotemporal dynamics of social affective processing and to examine selective modulation of these dynamics in humans undergoing invasive intracranial monitoring for treatment-resistant epilepsy and depression. Pursuing this signal from a novel platform with invasive intracranial recording electrodes provides much-needed spatial and temporal resolution to characterize the neural dynamics of socio-affective processing. The investigators will leverage first-in-human intracranial neural recording opportunities created by a novel therapeutic platform termed "stereotactic electroencephalography-informed deep brain stimulation" (stereo-EEG-informed DBS), as well as the powerful platform of intracranial stereotactic recording and stimulation in patients undergoing epilepsy surgical evaluation at Baylor College of Medicine. The sEEG-informed DBS trial provides unique opportunities for intracranial recording of affect-relevant network regions in patients with treatment-resistant depression (TRD). Recordings in identical regions in epilepsy patients who themselves often demonstrate mild-moderate depressive symptoms will provide a wide dynamic range across the symptom spectrum. To provide critical data on the spatiotemporal dynamics of socio-affective processing the investigators will leverage these two human intracranial recording and stimulation cohorts to study the precise structural, functional, and causal properties of the affective salience network. Greater understanding of the social processing circuitry mediated by the affective salience network may be used to drive therapeutic innovation, pioneering a new paradigm that improves socio-emotional function across a wide variety of neuropsychiatric conditions. The results from this proposal have the potential to improve the lives of patients with dysfunction in social affective processing, with implications for a wide range of neuropsychiatric diseases.

Major depressive disorder (MDD) exhibit reduced visual motor perception, which affects prognosis. Metabolic substance changes and abnormal neural activity in the middle temporal visual area (MT) mediate this perceptual dysfunction. The main questions are: •there is no conclusive evidence of impairment of visual motion suppression in treatment-resistant depression (TRD); •it is unknown that functional abnormalities in the MT of TRD patients mediate possible changes in visual perception •lack of treatment for deficit in visual motor perception; •mechanisms behind the intervention process need to be explored. The goal of this clinical trial is to understand the function of visual motor perception in TRD, to validate the effect of the MT on visual motion perception and to explore the effectiveness of the intervention as well as the neurophysiological mechanisms. This study was planned to •explore any differences in visual motor perception and function of MT between TRD and healthy controls; •analyze the influence of neurobiological changes in MT and related brain regions on visual motion perception; •investigate the effects of rTMS intervention in MT for treatment of impaired visual perception function in TRD; •studying potential therapeutic mechanisms by PET/MRI imaging. Participants will divide into TRD group and HC group. Clinical symptoms, scales, visual perception suppression index, PET/MRI, electrophysiology and other clinical data were collected at baseline for both two groups. TRD group received high-frequency rTMS stimulation targeting the MT. Besides, psychological scales, visual suppression index, PET/MRI, electrophysiology and other clinical data were collected during the intervention and after treatment. The researchers will •compare the differences in visual perceptual function and neurobiological characteristics between the TRD group and the HC group in baseline; •analyze the impact of MT and related brain regions in visual motion perception; •compare the suppression index before and after intervention in TRD to discuss the feasibility of rTMS stimulation targeting the MT to improve visual motion perception abnormalities；•utilize the changes in clinical data of PET/MRI and electrophysiology before and after the treatment of TRD group to explore the possible underlying mechanisms during the treatment process.

Repetitive pulse transcranial magnetic stimulation (rTMS) is a noninvasive treatment that involves stimulating the brain; however, treatment benefit depends on placing a TMS coil in the correct place on the head to reach critical brain regions below. Clinicians typically use scalp-based targeting, a process in which rather than using MRI guidance to target brain regions for stimulation, they use landmarks on the scalp. Several researchers, including the investigators' lab, showed that the current scalp-based targeting techniques do not position stimulation above the correct brain region, and patients fail to respond. The investigators propose to improve clinical scalp-based targeting by comparing it to MRI guided targeting. The most common clinical population receiving rTMS therapy is depressed patients. The investigators' plan is to study the accuracy of certain scalp-based rules in patients with depression. Accurate brain stimulation targeting is critical for effective rTMS therapy. For participants who are not undergoing rTMS therapy who have COVID-19 distress, we are offering a combined home-based neuromodulation (transcranial electrical stimulation) and focused psychotherapy program dedicated to improving the same outcome measure, quality of life. Transcranial electrical stimulation (tES) stimulates the brain over a large region; however, we are able to model with brain imaging which brain regions receive the strongest stimulation. Our goal is still to examine stimulation precision, but we will test whether strength of tES in the same brain regions that rTMS is targeting will also lead to improved quality of life. We will also carefully assess whether it is possible to measure healthy functioning, an outcome in the rTMS study, because sheltering in place may reduce activities and thus distort our measure. We will also test whether our psychotherapy intervention will mitigate this effect and, if so, we may make it available to all those depressed Veterans in whom we're studying the effect of neuromodulation on functioning.

The objective of this study is to collect both active and passive data using a wearable, multi-sensor device (Verily Study Watch) and phone application (Mood App) which aims to capture mental health status, in subjects participating in the RECOVER clinical trial (A Prospective, Multi-center, Randomized Controlled Blinded Trial Demonstrating the Safety and Effectiveness of VNS Therapy® System as Adjunctive Therapy Versus a No Stimulation Control in Subjects With Treatment-Resistant Depression).

Depression is a debilitating chronic illness affecting 1 in 6 UK adults at any one time. Antidepressants and psychological therapy are the main treatments, but some people do not respond to these. Neurons and signals in the brain are greatly disrupted in people with severe depression. A ketogenic diet, a high-fat and very low-carbohydrate diet, supplies a form of energy that appears to help brain cells communicate and may improve the treatment of depression. Our goal is to find out whether a ketogenic diet could be an additional effective treatment for patients with depression for which antidepressants do not work. Using social media advertising, we aim to recruit 100 patients, ages 18-65, who have previously tried at least two different antidepressant medications within the current depressive episode. Enrolment, consent, and data collection will be collected online using self-report questionnaires. Participants will be allocated by minimisation 1:1 to the KD group or control group based on depressive severity (moderately severe vs. severe) and body mass index (<30kg/m2 vs. 30+ kg/m2). The intervention group will receive 6-weeks of prepared ketogenic diet meals (3 meals with snacks per day) and weekly ketogenic diet-focused nutrition counselling. The control group will be asked to follow a diet to reduce their saturated fat intake and increase vegetable consumption by one portion a day. The control group will receive vouchers to assist with purchases and will be provided with weekly nutritional counselling. Existing treatment for depression will remain in both groups. The primary outcome is the change in depression symptoms at six weeks. All participants will complete assessments of their depression and anxiety intensity every two weeks, starting before treatment to post-intervention (week 6), and again at week 12. We will also assess participants' ability to experience pleasure, quality of life, ability to socialise and work, cognitive processing, morning cortisol, and gut microbiome. At all stages of the study, several members of the public with lived experience of depression will advise the research team to take into account the needs and views of patients. Our study will provide evidence of whether following a ketogenic diet leads to a short-term improvement in depression in people whose depression cannot be relieved by antidepressants. Our research may pave the way for longer trials and eventually lead to new ways of treating depression.

Depression is a common illness, affecting 17% of the population over the course of a lifetime. A third of depressions relapses and progresses to recurrence and resistance to treatments. Despite the optimization of antidepressant medical strategies, 20 to 40% of depressions do not respond to treatment. This is particularly worrying as 6% of non-responder patients will die by committing suicide. Depression has a major impact on quality of life, socio-professional functioning and healthcare consumption. Sometimes, TRD is part of a bipolar illness. In this case, the challenge is even bigger because antidepressants are no well tolerated, further reducing the therapeutic options in case of resistance, the severity and duration of the depressive episodes are the main factors explaining the deterioration of the quality of life and the increasing cost of cares for these patients. The standard treatment for TRD is electroconvulsive therapy (ECT), which results in a response in 60 to 70% of cases after a few weeks of treatment. However, the improvement is often transient and 40% of patients relapse within 6 months of the initial ECT session. Moreover, ECT is often not well tolerated. This therapeutic impasse therefore makes TRD a priority public health target to which it is urgent to provide a realistic medico-economical response. The literature suggests that Vagus Nerve Stimulation (VNS) has unique kinetics of efficacy in depression, particularly in preventing long-term recurrences, and therefore responding to the lack of effective maintenance treatment in TRD. In fact, the benefits of VNS gradually accumulate over 12-24 months, which makes it complementary to more incisive treatments like ECT. Finally, its efficacy-tolerance profile appears to be similar in uni and bipolar TRD, giving VNS a potentially unique place in the therapeutic arsenal in psychiatry. The DepVNS hypothesis is that VNS is a medico-economically efficient therapeutic option to overcome the therapeutic impasse in which patients suffering from uni and bipolar DR currently find themselves due to the frequency of relapses under treatment. The primary objective is to estimate, from a collective point of view, the incremental cost-utility ratio of VNS to treat patients suffering from RD.

Repetitive transcranial magnetic stimulation (rTMS) and Theta burst stimulation (TBS) are approved by the US. Food and Drug administration (FDA) for the treatment of refractory major depression. TBS is more efficient than rTMS as it requires shorter stimulation time.Studies suggest that the efficacy of TBS could be enhanced and expedited by accelerated protocols (more than once daily sessions) with higher doses of stimulation (>600 TBS pulses up to 3600 pulses per session) and shorter duration of treatment (4-10days). The main objective of this study is to determine the clinical efficacy and safety of accelerated high dose bilateral TBS treatment for patients with treatment resistant depression in comparison to sham stimulation using a randomized double blind clinical trial design.

Investigators aim to evaluate the safety and efficacy of pBFS-guided rTMS therapy targeting DMPFC for patients with treatment-resistant depression

Over 28 million people suffer from current depressive disorder in the European Union. Major depressive disorder (MDD) is one of the most common psychiatric illnesses. The symptoms cause clinically significant distress or impairment in social, occupational, and other important areas of functioning. To treat MDD, there are several antidepressants available and prescribing medication is a process of trial-and-error. Guidelines do not explicitly advise on the order in which antidepressant medication should be prescribed. The choice of antidepressant should be tailored to the patient, while involving the patient in the decision-making process. In general, the choice for the first- and second-line treatment will be a second-generation antidepressant. Recently, esketamine nasal spray (intranasal (IN) administration) was approved for patients with treatment-resistant MDD (TRD). A patient is diagnosed with TRD when having used two antidepressants in sufficient duration and adequate dose without sufficient effect. TRD is associated with a negative impact on quality of life, higher risk for hospitalisations and suicide, comorbidities, poorer social and occupational functioning and a high carer burden. The efficacy of intranasal use of esketamine has been demonstrated in MDD subjects with treatment-resistant symptoms but also in subjects with non-treatment resistant depression, and is approved by the FDA and EMA as a third-line treatment. Besides the registered esketamine nasal spray, which is not available in all countries to all patients because of the high costs, off-label utilization of (es)ketamine infusions (IV) is growing extensively over time to treat TRD. Research conducted so far indicates an unequivocal initial substantial response to (es)ketamine IV in MDD populations, regardless of whether or not patients suffer from treatment resistant MDD. However, until now, there has not been a study investigating this in a sufficiently large population. This may be a unique opportunity to potentially prevent patients progressing into a treatment resistant illness stage. The potential implications of the results of the current study are the prevention of unnecessary trials of ineffective treatments, reducing subject burden substantially, as well as a reduction of healthcare and societal costs.

To explore the effectiveness and safety of rTMS intervention with different targets in the left prefrontal cortex defined using the pBFS method, in adult patients with moderate and severe depressive disorder. Second, investigate the neural circuit that responds to the rTMS intervention using individualized brain image analysis, which may help to establish an effective target for the neuromodulation of patients with major depressive disorder.