View clinical trials related to Anhedonia.
Filter by:This project will use the experimental medicine approach of a Phase IIa Proof of Mechanism 16-week, randomized, double-blind, controlled trial of L-DOPA versus placebo administration in combination with a 16 week social skills training group in order to: 1) identify differences in social reward processes in adolescent and young adult ASD participants versus healthy controls as measured by fMRI activation in reward circuitry; 2) provide evidence of dopaminergic moderating effects on social reward components in ASD with greater pre- to post-treatment changes expected in the subjects randomized to L-DOPA versus placebo; 3) examine the hypothesis that baseline readouts of putative dopamine signaling (wanting activation responses) will predict the extent of fMRI reward-related activation changes pre- to post-treatment; and, 4) examine the proposed relationship between pre- to post- L-DOPA fMRI reward changes and changes in individual self-report ratings of social wanting and ratings of videotaped positive affect in a structured interaction with an examiner. The study will enroll 56 participants with DSM-5 ASD between the ages of 13-30 years of age and 18 healthy control participants without histories of psychopathology for baseline comparisons.
This project is designed to examine the neuronal KCNQ2/3 potassium (K+) channel subtype as a novel treatment target for mood disorders through the administration of the KCNQ-selective channel opener ezogabine (Potiga, GlaxoSmithKline; FDA-approved for the treatment of seizure disorders).
Using an innovative multi-modal imaging approach, this study investigates the role of the neurochemical gamma-aminobutyric acid (GABA), brain activity, as well as hormones in understanding sex differences in Major Depressive Disorder (MDD). Further, the investigators will link these markers to symptoms of depression.
The purpose of this randomized controlled trial is to establish feasibility and provide initial estimates of efficacy of two computerized cognitive training procedures (a form of Positive Mental Imagery Training, PMIT, and a form of Cognitive Control Training, CCT) delivered as adjuncts to treatment as usual (TAU) in inpatient mental health treatment settings.
The primary objective is to evaluate if repetitive transcranial magnetic stimulation (rTMS) with theta burst frequency over dorsomedial prefrontal cortex (DMPFC) is an effective treatment for negative symptoms (anhedonia and avolition) in schizophrenia or depression. Other objectives are to increase the understanding of the underlying neurobiology of negative symptoms and the mechanisms for the treatment effect of rTMS.
The overall goal of this project is to develop a novel transdiagnostic treatment for anhedonia, called Behavioral Activation Treatment for Anhedonia (BATA), using ultra-high field functional neuroimaging. There is a critical need for a validated treatment that specifically targets anhedonia, and this project will evaluate the effects of this new treatment on anhedonia and will establish how this treatment impacts brain systems that mediate reward processing, clinical symptoms of anhedonia, functional outcomes, and behavioral indices of reward processing. This work will also identify brain targets by which future novel anhedonia treatment may be evaluated.
Anhedonia (the lack of pleasure in normally pleasurable things) is a common symptom of major depressive disorder (MDD), and it may impact how patients with depression experience reward. Understanding how anhedonia is related to the experience of reward may help improve how depression is treated. Computer tasks can be used to measure how reward is experienced, and these measures might be able to predict things like who is likely to become depressed, or who will respond to antidepressant medication. Studying the relationship between anhedonia and reward in patients with depression might also tell us something about how to improve diagnosis and treatment of other psychiatric disorders.This is an open label controlled treatment study lasting 8 weeks. The brain scans will be used to find changes in brain areas that may be related to how people perform on the tasks. The investigators goal is to use this information to help us find a reliable predictor that can be used to guide MDD treatment.
The purpose of this study is to examine anhedonia as a potential moderator of treatment outcomes for Cocaine Use Disorder (CUD). Specifically, this study will investigate how anhedonia affects outcomes in contingency management (CM) treatment for CUD and whether anhedonia mediates the effects of adjunctive treatment with a dopaminergic (DAergic) drug, d-amphetamine, on outcomes in CM for CUD, as well as investigate the contribution of anhedonia to overall CUD severity.
Anhedonia, decreased motivation for and sensitivity to rewarding experiences, is present in at least 1/3 of community dwelling older adults and is a feature of various psychiatric and neurological disorders, including late-life depression and Parkinson's disease. Anhedonia is associated with cognitive deficits, as well as poor clinical outcomes and increased mortality. Recent research suggests that anhedonia comprises motivational (reward "wanting") and consummatory (reward "liking") aspects. However, previous research on anhedonia has failed to dissociate these components, which may explain the contradictory findings in the literature. Recently, the Effort-Expenditure for Rewards Task (EEfRT) was developed in an effort to dissociate reward components in anhedonia. The EEfRT is an effort-based decision-making task that measures reward "wanting", in contrast to commonly used anhedonia questionnaires, which focus on reward "liking." This novel task may provide a useful measure of components of anhedonia in older adults and in different patient populations. Thus far no data is available on this task in elderly individuals, and the cognitive and neural correlates of components of the task have not been investigated. Given the paucity of research on the neurobiology of anhedonia, cognitive neuroscience studies using this task could fill a gap in the literature. The investigators are developing a line of cognitive neuroscience studies examining anhedonia in community-dwelling older adults and in late-life depression and Parkinson's disease. This study will involve gathering pilot behavioral and functional magnetic resonance imaging (fMRI) data in young and older adults performing the EEfRT task. Understanding the brain mechanisms underlying anhedonia in older adults and in different patient populations will have a translational impact by elucidating biological targets for treatment.
The prevalence of major depressive disorder (MDD) is relatively low in childhood (i.e., 1-3%), but increases substantially during adolescence. By the age of 18, approximately 15% of adolescents will have experienced at least one episode of MDD. A growing body of research implicates abnormalities in reward circuitry as playing a critical role in the development and maintenance of depressive symptoms in adolescents. Importantly, these reward-circuitry abnormalities have been linked to anhedonia (i.e., decreased pleasure or blunted reactivity to rewarding stimuli). Behavioral Activation (BA) represents a promising - and relatively simple to deliver - nonpharmacologic intervention for adolescent depression, which has been shown to be at least as effective as Cognitive Behavioral Therapy (CBT) with regards to symptom reduction and lowering the risk of relapse in adult samples. More recently, promising data have emerged from the application of BA to depressed adolescents. BA can be conceptualized as a treatment directly targeting anhedonia. More specifically, BA targets anhedonia through behavioral change strategies aimed at gradually increasing patients' exposure to and engagement with rewarding stimuli and positively reinforcing experiences. Given this treatment focus, BA may be particularly beneficial for adolescents struggling with relatively elevated levels of anhedonic symptoms. Accordingly, the present study will examine the role of anhedonia and reward functioning in predicting treatment response in BA. In addition, analyses will be conducted examining the reward-related neural and behavioral mechanisms underlying anhedonic symptom improvement in BA.