Clinical Research Directory

Esketamine Nasal Spray in Real-World Settings in Treatment-Resistant Depression

This observational study investigates the use of Esketamine Intranasal Spray in patients with Treatment-Resistant Depression in Real-World Settings. The study aims to evaluate the clinical outcomes, including efficacy and safety, of esketamine treatment. It also explores predictors of treatment response, focusing on biological pathways such as genetics, neuroimaging, and psychophysical measures. Additionally, the study examines how esketamine impacts patients' life functioning, including social and occupational aspects. The goal is to better understand who benefits most from esketamine and how it affects daily life, to improve personalized care for patients with difficult-to-treat depression.

Ketogenic Diet and Neuromodulation in Treatment Resistant Depression

The goal of this clinical trial is to test whether combining a ketogenic diet (KD) with personalized, accelerated intermittent theta burst stimulation (iTBS) produces greater reductions in depressive symptoms than iTBS combined with a standard healthy diet in adults with treatment-resistant depression. The trial also aims to determine whether participants can feasibly follow a ketogenic diet during an accelerated iTBS treatment course and whether the diet produces measurable changes in ketone levels. Specifically, the study aims to determine whether the combined intervention: 1. Reduces depressive symptoms 2. Increases circulating ketone levels 3. Is feasible and tolerable during accelerated iTBS treatment Participants will begin either a KD or a Canadian Food Guide-aligned diet (CFGD) with a 3-week dietary lead-in period, after which they will undergo a course of personalized, accelerated iTBS while continuing their assigned diet. Before and after the iTBS treatment course, participants will complete clinical assessments, provide blood samples for metabolic testing, and undergo MRI scans to assess brain connectivity. Ketone levels will be measured daily throughout the 12-week dietary intervention. Within-group and between-group differences will be compared to characterize changes in clinical outcomes, metabolism, and brain functioning.

Spaced Transcranial Direct Current Stimulation for Treatment-Resistant Depression: A Home-Based Feasibility and Safety Study

The investigators propose a single-arm, open-label study to evaluate the effectiveness, safety, tolerability and feasibility of at-home transcranial direct current stimulation (tDCS) as a treatment for depression, particularly in cases where patients have not responded well to traditional therapies. Treatment will be delivered over a 2-week period with daily weekday treatments i.e., five tDCS sessions, each lasting 20 minutes, spaced by approximately 20-minute inter-session intervals, for a total of three hours a day. Participants will self-administer treatment at home under direct remote supervision. Pre- and post- treatment neurophysiological biomarkers sessions will also be carried out. The study aims to examine changes in mood, brain activity, and related clinical outcomes before, during, and after treatment, with the goal to provide more information that can be used for future studies. PLEASE NOTE: THERE WILL BE 4 APPOINTMENTS THAT MUST OCCUR IN PERSON IN SAN DIEGO, CA.

Neuronavigated aiTBS for TRD

The purpose of this study is to confirm the efficacy of two recently introduced repetitive transcranial magnetic stimulation (rTMS) interventions - accelerated intermittent theta-burst stimulation (aiTBS) and individualized neuronavigation - in treatment-resistant depression (TRD). Using a three-arm design (neuronavigated aiTBS, non-neuronavigated aiTBS, and sham), this randomized controlled trial (RCT) is the first to specifically investigate the incremental benefit of neuronavigation within an accelerated stimulation protocol, as well as the first confirmatory RCT comparing the efficacy of each of these active treatments vs. sham, overcoming previous generalizability issues and being conducted in an independent, multicenter US TRD sample.

Electroconvulsive Therapy Augmented With Transcranial Magnetic Stimulation for Treatment Resistant Depression

The RTMSECT2 study was design to compare the application of electroconvulsive therapy augmented by transcranial magnetic stimulation. Subject will be compared both within groups and in group using psychometric scales and different deliver energy

Ketamine Biomarker Validation

We will be developing an EEG-based biomarker for the effects of ketamine infusion in patients with Depression. We will be analyzing the effects of ketamine infusion on Depression symptoms and EEG signals.

Parcel-guided rTMS for Major Depressive Disorder

Study comparing standard repetitive transcranial magnetic stimulation (rTMS) for Depression to a novel targeting approach using brain surface parcellation to locate a specific brain target.

Feasibility Trial of Exercise as a Priming Strategy for rTMS Treatment in Difficult-to-Treat Depression

The goal of this study is to collect feasibility data on combining structured exercise aimed to improve physical fitness, and intermittent TBS (iTBS) in treating individuals diagnosed with difficult-to-treat depression who are physically inactive. By conducting this trial, we will compare the therapeutic benefits of the combined approach against the standard treatment of iTBS alone (without exercise). These findings will be used to inform future large-scale projects in which we will investigate, in a larger sample size, whether structured exercise aimed to improve fitness as recommended by most public exercise guidelines (i.e., ≥3x/week, moderate-to-vigorous intensity) serves as an active ingredient that amplifies the effectiveness of iTBS. Ultimately, the insights gained from this study will be valuable for clinicians seeking to alleviate depressive symptoms in MDD through neuromodulation techniques such as iTBS.

Ketamine-Assisted Psychotherapy for Treatment-Resistant Depression

The goal of this clinical trial is to understand the effect of ketamine on the brain in people with treatment-resistant depression (TRD). TRD occurs in around a third of people with depression and leads to higher suicide rates compared to those with major depressive disorder. A desperate need for a rapid acting antidepressant drug (RAAD) is needed to help improve quality of life for people with TRD. Ketamine has been shown to be a RAAD, and esketamine (a form of ketamine) was approved by the FDA to treat TRD. Ketamine has been known to cause dissociative experiences, that can lead to an increase in the "Openness to Experience" personality trait and psychological flexibility that occurs at "peak experience". This has been shown to improve mental health conditions and lower suicide risk. This study aims to further understand if there is a connection between this new change of mind and changes in brain activity. Ketamine has been shown to improve brain plasticity as well, specifically in the frontolimbic region of the brain, an area associated with depression. The investigators are analyzing the brain using functional magnetic resonance imaging (fMRI), a method used to measure brain activity. The frontolimbic region is also associated with cognitive flexibility and emotional processing, an important hurdle in treating TRD. Due to this, the investigators are pairing the ketamine treatment with psychotherapy sessions, to guide the processing experience, which can lead to higher emotional flexibility. The main questions this study aims to answer are: * Are frontolimibic plasticity circuitry changes associated with openness to experience and peak experience? * Is it feasible to recruit and retain people through a two-month KAP study? * Is the structure of the study effective for treating TRD? Participants will: * Visit the facilities 6-8 times * Complete 2 MRI brain scans * Complete 3-4 psychotherapy sessions * Receive 1-2 doses of ketamine * Complete online surveys between 3-4 visits

Comparison of the Efficacy of Accelerated Intermittent Theta Burst Stimulation and Accelerated Continuous Theta Burst Stimulation in Patients With Treatment-Resistant Depression

In recent years, research on the effectiveness of transcranial magnetic stimulation (TMS) in patients with treatment-resistant depression (RTD) has been steadily increasing. The aim of this study was to examine the effectiveness of accelerated unilateral application of two different forms of theta burst stimulation (TBU), a variation of repetitive TMU (rTMS)-intermittent TBU (iTBU) and continuous TBU (cTBU)-in TDD patients. The study aimed to compare the advantages of iTBU and cTBU protocols on depression, suicidal thoughts, anxiety levels, sleep disturbances, cognitive performance, and overall functioning following a two-week intensive treatment period and a 12-week follow-up period.

Intravenous Ketamine for Treatment-Resistant Depression

The purpose of this study is to to evaluate the relationships between peak (% change from baseline) central GABA and Glu levels during a 40-min IV ketamine or normal saline infusion utilizing fMRS, and change in peripheral GABA and Glu levels from baseline to 24-hr postinfusion utilizing LCMS, with baseline to 24-hr post-infusion change in depression (MADRS) in 30 TRD adults.

Algorithm Guided Treatment Versus Treatment as Usual (TAU) for Patients With Treatment Resistant Depression

The trial utilizes a pragmatic, randomized, open label design with two parallel arms. Participants aged 18-65 with a diagnosis of unipolar depressive disorder and without stable remission in the past 12 months are randomized 1:1 to receive either algorithm guided treatment (AGT) or treatment as usual (TAU). The AGT approach incorporates pre-defined treatment steps, critical decision points, and "if-then" rules based on symptom response. It leverages prior treatment history, current symptomatology, and tolerability profiles to personalize the therapeutic sequence and reduce treatment inertia. In contrast, TAU reflects standard clinical practice, where treatment decisions are left to clinician discretion without algorithmic structure. The primary objective of the study is to determine whether AGT leads to a greater reduction in depressive symptoms over a 12-week treatment period, as measured by the 6-item Hamilton Depression Rating Scale (HAMD-6). Secondary objectives include evaluating cognitive and psychosocial functioning, suicide risk, treatment adherence, tolerability, number of medication changes, and long-term outcomes at a 24-week follow-up, providing insights into the longer-term trajectory of TRD management.

Accelerated Transcranial Magnetic Stimulation in Treatment-Resistant Depressed Patients

Depression is the leading cause of disability worldwide and around 800,000 suicides occur each year. According to the World Health Organization, major depressive disorder (MDD) is expected to be the leading cause of the global burden of disease by 2030. One third of MDD patients do not respond to first-line pharmacologic and psychotherapeutic antidepressant treatments. New antidepressant treatments that are safe, tolerable, fast-acting, durable and effective are needed. Transcranial magnetic stimulation (TMS) is a promising form of non-invasive brain stimulation with rapid antidepressant and suicide prevention effects in MDD. TMS applied to the left dorsolateral prefrontal cortex (DLPFC) is a non-invasive brain stimulation technique approved by the US Food and Drug Administration (FDA) for treatment-resistant depression. TMS involves passing an electric current through a magnetic coil placed on the surface of the scalp, producing a high-intensity magnetic field that travels through the scalp, skull and meninges, stimulating neuronal tissue. This in turn causes changes in functional connectivity. The mechanism of TMS on core depressive symptoms is hypothesized to be mediated in part through indirect inhibitory functional connectivity from the left DLPFC to the subgenual anterior cingulate cortex (sgACC).

Treatment Resistant Depression and Vagus Nerve Stimulation

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.

Maintenance TMS in Treatment Resistant Depression

Electroconvulsive therapy (ECT) is one of the most efficacious treatments available for treatment-resistant depression (TRD). Although a maintenance ECT protocol exists, multiple barriers limit its use for long-term use. These barriers include procedure tolerability, cognitive side effects, financial burden, and unreliable social support to accompany patients for these treatments. On the other hand, a different modality of noninvasive neuromodulation called transcranial magnetic stimulation (TMS) can be performed in the outpatient setting and does not need anesthesia. The likelihood of cognitive adverse effects with TMS is much lower than with ECT. Our clinical question encompasses piloting a maintenance TMS regimen to maintain remission in treatment-resistant major depressive disorder. This will be a patient-preference clinical trial, with patients offered the choice to initiate maintenance TMS versus maintenance ECT after their index ECT sessions for treatment-resistant depression. There will be no randomization or placebo involved in this study.

Comparison of Different Acceleration Modes of Transcranial Magnetic Stimulation

To compare the efficacy and safety of 6 times a day, 10 times a day acceleration mode and sham stimulation intervention for TRD, and to explore the antidepressant mechanism of accelerated mode, so as to provide a more simple and effective rapid treatment plan for TRD patients.

TACS on High-inflammatory and Refractory Depression

This study is a randomized controlled trial with a duration of 12 weeks (4 weeks of intervention + 8 weeks of follow-up). The participants are patients with treatment-resistant depression (TRD) and high inflammatory activity (n=52). The study aims to clarify the effectiveness of 15mA, 77.5Hz transcranial alternating current stimulation (tACS) in treating TRD with high inflammatory activity by comparing the changes in depressive symptoms and biological markers after active tACS stimulation versus sham stimulation. Additionally, the study seeks to explore potential underlying mechanisms of action.