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This study examines the feasibility and acceptability of a virtual tumor board for cancer and mental illness for patients with serious mental illness and a new cancer diagnosis. The study also examines the impact on patient care, psychiatric symptoms, and clinician self-efficacy in managing this population.
The purpose of this research study is to study a closed-loop transcranial alternating current stimulation (tACS) device to evaluate feasibility of the product in a clinical trial and collect preliminary data on potential effects on symptoms of depression in people with major depressive disorder.
Chronic intracalvarial cortical stimulation is a minimally invasive method involving the neurosurgical placement of an electrode above the inner table of the skull. Over time, intracalvarial cortical stimulation is intermittently activated to modulate locally and distally connected brain regions. Because of the important role played by the dorsolateral prefrontal cortex in mood regulation, the goal of this study is to apply intracalvarial prefrontal cortical stimulation (IpCS) over the dorsolateral prefrontal cortex in severely treatment-resistant depressed (TRD) patients. Per the DSM-V and Centre for Medicare and Medicaid Services (CMS) nomenclatures, TRD patients are commonly defined as those whose treatment failed to produce response or remission after 2 or more attempts of sufficient duration and treatment dose. In the investigator's study, eligible TRD subjects will have a diagnosis of major depressive disorder with a suboptimal response to an adequate dose and duration of at least two different antidepressant treatment categories. These subjects will also have had exposure and transiently (non-durably) responded to non-invasive neurostimulation. The investigator anticipates that severely Treatment Resistant Depressed (TRD) Subjects with IpCS of the dorsolateral prefrontal cortex will show a significant decrease in depression symptoms as measured by the Montgomery-Asberg Depression Rating Scale (MADRS) at four months post-implant when compared to baseline. The investigator will enroll up to 20 subjects with severe refractory depression in an open trial, followed for up to one year. Depressive and cognitive symptoms will be rated periodically to assess the safety and efficacy of this procedure.
This study will evaluate a new form of non-invasive brain stimulation for individuals with depression. Personalized low-intensity transcranial focused ultrasound stimulation will be delivered using a range of stimulation parameters during psychological and physiological monitoring. Individualized optimal targets will be selected using structural MRI and diffusion tractography. Brain target engagement will be evaluated using functional MRI.
The goal of this study is to examine attentional biases for facial displays of emotion as a mechanism of risk in infants of mothers with postpartum major depression, and the potential role of infant arousal in the development of these attentional biases.
Spinal interoceptive pathways (SIPs) convey bodily signals to an interoceptive system in the brain and their dysregulation is linked to major depressive disorder (MDD). Current treatments are partially effective and the role of SIPs in MDD is vastly unexplored. Preliminary data suggests that SIPs are feasible therapeutic targets in MDD. The central hypothesis is that non-invasive spinal cord stimulation will modulate SIPs to elucidate their role and therapeutic potential in MDD using an R61/33 phased innovation approach. R61 phase specific aims (SA). The specific goal will be to evaluate spinal and brain-based SIPs target engagement markers of transcutaneous spinal direct current stimulation (tsDCS) in MDD with two SAs: SA1) To determine tsDCS SIPs modulation using laser-evoked potentials (LEPs) as electroencephalography (EEG)- based neural measures of target engagement. SA2) To evaluate optimal tsDCS dose based upon tolerability and SIPs target engagement markers. Anodal tsDCS will be evaluated as a tool to modulate SIPs in MDD. SIPs (Aδ and C fibers) can be evaluated via LEPs as neural measures (EEG) elicited in MDD-relevant brain regions within an interoceptive system. Prior data shows anodal tsDCS inhibits SIPs and LEPs N2 component will be assessed as tsDCS engagement markers. Adults with MDD (n=67) will participate in a double-blind, crossover, sham-controlled study to evaluate tsDCS at 0,2.5,3, and 3.5 mA. The working hypothesis is that tsDCS will induce a change in LEPs (SA1) in a dose-dependent and tolerable manner (SA2), supporting their use as SIPs engagement markers. Go/No-Go milestones: Compared to sham, the active tsDCS dose that induces a change in LEPs at a preestablished threshold will be evidence of SIPs engagement and "Go" criteria for the R33 phase.
The goal of this open-label single-arm study is to test a meditative neurofeedback intervention for depressed mood.
Evaluate the efficacy of accelerated theta burst stimulation (aTBS) in reducing depressive symptoms in autism spectrum disorder (ASD)
This is an open-label, monotherapy, extension study to evaluate the safety and tolerability of SPT-300 (GlyphAllo) in adults with major depressive disorder (MDD), with or without anxious distress.
This pilot study evaluates the feasibility, safety, and preliminary efficacy of home-based 60Hz intermittent light therapy in adults with a major depressive episode (MDE). Participants will be randomized in a 2:1 ratio to receive either active or sham 60Hz intermittent light stimulation for 30 minutes daily (Monday through Friday) over three weeks. The light is delivered through a wearable headset. Clinical assessments will be conducted remotely at baseline, mid-point, post-treatment, and follow-up to measure changes in depressive symptoms.