Probing the Dorsolateral Prefrontal Cortex and Central Executive Network for Improving Neuromodulation...
Major Depressive DisorderDepression is a highly prevalent condition characterized by persistent low mood, energy, and activity that can affect one's thoughts, mood, behavior, and sense of well-being. Repetitive transcranial magnetic stimulation (rTMS), a non-invasive neuromodulatory technique, is an effective treatment for depression when targeting the dorsolateral prefrontal cortex (dlPFC) of the central executive network (CEN). However, remission rates are suboptimal and individual methods to target the dlPFC are lacking. In this study, we will enroll 50 patients with major depression and in a single rTMS 'dose,' prospective, randomized, double-blind, cross-over design will assess whether rTMS targeted to an individual's central executive network (CEN) assessed by single pulse TMS can enhance network modulation. If successful, this work will lead to a clinical rTMS trial comparing this personalized targeting approach against standard rTMS.
Life Experiences in Adolescents and the Development of Skills
Depression in AdolescenceAdverse Childhood ExperiencesThe primary objective of this study is to assess acquisition and retention of a Cognitive Behavioral Therapy (CBT)-based "cognitive restructuring" skill, among young adolescents (12-15 years of age) with elevated depression symptoms and with population-level variability in lifetime exposure to adverse childhood experiences. This study uses a repeated-measures, longitudinal design to investigate associations between adversity exposure and learning-related cognitive control processes in the context of elevated depression (Aim 1). Adversity exposure and cognitive control will be examined as direct predictors of cognitive restructuring skill acquisition and skill retention over six-months; an indirect pathway from adversity to skill acquisition through cognitive control will also be examined (Aim 2). The study also includes exploration of key characteristics of adversity, namely the type (threat of harm versus deprivation of resources) and developmental timing of exposure, as distinct predictors of skill acquisition (exploratory Aim 3).
Efficacy of Gamified Cognitive Control Training Using de:)Press on Depression Severity add-on to...
DepressionCognitive Impairment2 moreDepression is one of the most frequent and devastating psychiatric diseases with a substantial bur-den for patients and society. It is specifically associated with dysfunctional activity in brain networks subserving cognitive control of emotional information processing. Normalization of this activity is a hallmark of various treatment approaches. Computerized training of cognitive control has shown antidepressant effects in experimental lab settings and small clinical pilot trials. However, motiva-tion, treatment adherence, and access for patients are major challenges that limit its broader use. To address these challenges, we developed a software application (de:)press®) that integrates gamification elements in a standard cognitive control task to support motivation, usage time, usabil-ity, and therefore symptom reduction. In a previous pilot trial, we were able to document that de:)press® is superior to a non-gamified standard cognitive control training in reducing depression symptomatology. Based on these data, we now designed a full-size confirmatory trial for the pur-pose of testing the hypothesis that de:)press® provides a positive healthcare effect by means of reduction in depression severity compared to treatment as usual (TAU). In this randomized, con-trolled, clinical trial 112 patients will be randomized to the intervention group (IG) with de:)press® additional to TAU, or the control group (CG) receiving only TAU. For a period of 6 weeks, the IG is provided with de:)press®. To prove a stable efficacy of de:)press®, the primary endpoint is the dif-ference in the Montgomery-Åsberg Depression Scale (MADRS) change 4 weeks after the end of training between IG and CG.
Implementation Strategies for Task-Shifting Depression Care Depression Care in Vietnam
DepressionThe study is a Hybrid Implementation-Effectiveness study that will primarily test the implementation strategies on provider adoption and implementation quality in three Vietnam provinces. Secondarily, the effectiveness of the multicomponent collaborative care model for depression intervention on patient outcomes will be tested. A cluster randomized control trial design, with a mixed-methods approach, will be used to assess the effectiveness of the three implementation strategies on both organizational and provider implementation outcomes and patient effectiveness outcomes.
MRI Markers of Feedback Timing During Learning in Individuals With TBI With and Without Clinical...
Traumatic Brain InjuryMajor Depressive DisorderThe goal of this proposal is to examine the influence of feedback timing on learning and brain function in individuals with moderate-to-severe traumatic brain injury (TBI), with and without depression.
Low Intensity Ultrasound Neuromodulation of Repetitive Negative Thinking In Depression
Major Depressive DisorderThe investigators propose to use low-intensity transcranial focused ultrasound (LIFU), a novel neuromodulation method, to probe the causal involvement of individually defined components of an anteromedial brain circuit in the processing of self-referential thoughts, and the production of repetitive negative thinking (RNT), a prominent transdiagnostic manifestation with adverse clinical consequences. The investigators hypothesize that real vs. sham low-intensity sonication of individually-defined anteromedial structures connecting medial orbitofrontal and anterior cingulate cortices with ventral striatum and anterior thalamus will show reduced initiation or maintenance of RNT as measured by (1) Brief State Rumination Inventory (BSRI) scores and distress associated to repetitive negative thoughts, and (2) improvement of the affective valence associated to self-referential adjectives, and that these changes will be associated with decreased connectivity between structures mentioned above. The present early feasibility study is an initial step that aims to determine its feasibility and help with the planning of a larger study addressed at actual hypothesis testing.
Early Identification of TRD and Construction and Clinical Validation of NTBS Precision Technology...
Treatment-Resistant DepressionThe goal of this clinical trial is to learn about the characteristics, identify early and intervene effectively in time in Treatment-Resistant Depression. The main questions are: • TRD is difficult to identify early and lacks objective detection indicators; • Existing treatment strategies for TRD are associated with side effects and high treatment resistance; • Current non-invasive brain stimulation therapy lacks precision. it aims to answer are: • Construct a multimodal TRD early identification model based on clinical characteristics, blood factors, functional magnetic resonance and brain electrophysiological indicators; • Develop non-invasive transcranial deep brain stimulation technology based on focused electric field; • In TRD patients, an individualized non-invasive transcranial deep electrical stimulation technology based on precise magnetic resonance targets and EEG phase guidance was constructed. Participants will:• be collected data multiple times including clinical symptoms, peripheral biology, functional magnetic resonance, electrophysiology and other clinical data before and after the intervention; • receive non-invasive transcranial deep brain stimulation or sham stimulation of different deep brain target points; • be collected EEG data while receiving stimulation. Researchers will • compare the biological characteristics of TRD, n-TRD patients and health controls to build early identification models and find potential spatial and temporal intervention targets dependent on TRD status; • verify the safety of non-invasive transcranial deep brain stimulation device in health controls; • compare TRD with different modes of stimulation to find the best treatment plan for non-invasive transcranial deep brain stimulation and verify safety.
Effects of Vitamin D Supplementation on Depression and Inflammatory Markers
Major DepressionVitamin D DeficiencyThe current study is designed as a prospective partially randomized patient preference (PRPP) trial and recruit psychiatric outpatients or inpatients. Participants who agree to receive randomization will be randomly assigned into a supplementation or placebo group, after stratification for pre-intervention vitamin D status (12-20 ng/mL or <12 ng/mL) and depression status (HDRS-17 ≥ 17 or < 17). Participants who decline randomization but agree to receive follow-up in the observational cohort choose their preferred method (either 4800 IU vitamin D3 per day, or usual care without supplementation). Severity of depression, any change of medication, and side effect will be assessed at baseline and at 2-week intervals for 8 weeks. Serum levels of 25(OH)D, C-Reactive protein (CRP) and 12 cytokines, anthropometrical measurements, dietary intake, physical activity and sun exposure will be assessed at baseline and post-intervention. Additionally, serum levels of 25(OH)D will be assessed at 4 weeks to ensure its safety level.
Evaluating tDCS Brain-stimulation in Depression Using MRI
Major Depressive DisorderPatients, physicians, and those who fund depression research are keenly interested in depression treatments that do not involve taking medications. One promising candidate treatment is transcranial direct current stimulation (tDCS), a low-cost technique that involves placing electrodes on specific scalp locations and using a 9-volt battery to cause a small amount of electricity to pass through parts of the brain. Depending on the direction of electrical flow, tDCS can make brain cells (neurons) more likely or less likely to generate their own electrical signals. When evaluated as a treatment, tDCS is typically done in daily sessions over a period of two weeks. One of the challenges of tDCS is to work out the best possible positioning of electrodes and direction of electricity flow to gradually cause lasting changes in brain activity in ways that might be expected to improve depression. To address this challenge, the investigators are using MRI to take pictures of the brain during tDCS. This data will help us better understand the short-term effects of tDCS in depression and help us learn how to customize future treatments to cause a lasting beneficial response. Patients with depression between the ages of 20-55 years are eligible to take part in this research. Potential participants will undergo: An assessment to confirm eligibility. This will take place over a secure videoconference call lasting no more than 3 hours. Two in-person study visits lasting 30 min and 2-1/2 hours respectively. In the first visit, the investigators will use the MRI to take a picture of the brain and head structure to determine appropriate locations for placing the tDCS electrodes at the start of the second visit. Following electrode placement, an MRI scan will be performed to take pictures of the brain during tDCS. Depending on the study arm, Participants may receive 'active' or 'sham' tDCS. The 'sham' condition is identical to the 'active' tDCS in every way except that it involves minimal tDCS and is designed to help rule out effects unrelated to the administered tDCS electricity. Participants may also be asked to perform a mental task during MRI. All participants will be compensated $150 + parking upon completion of all study-visits.
Effects of 12-week Exercises on Alexithymia, Depression and Quality of Life in Geriatric Individuals...
DepressionAlexithymia2 moreThe aim of this study is to investigate the effects of aerobic and resistance exercises on depression, alexithymia levels and quality of life of elderly individuals.