View clinical trials related to Alcoholism.
Filter by:This is a Phase 2, single-site, randomized, double-blind, placebo-controlled, proof-of-concept (POC) study involving 6 weeks of MAP4343 in conjunction with 6 weeks of manual-guided counseling, with 2 follow-up visits at 1 week and 1 month post-treatment.
This research evaluates a tool designed for measurement-based care in addiction treatment. Patients in addiction treatment will be invited to complete weekly measures indicating treatment progress and goals. For half the patients, their addiction treatment clinician will be able to view their weekly progress and goals via a secure dashboard. The research will test the feasibility and acceptability of the measurement-based care tool and will evaluate its impact on within-session discussion topics and clinical outcome measures.
There is growing interest in the utilization of transcranial magnetic stimulation (TMS) as a novel, non-pharmacologic approach to decreasing alcohol use among treatment-seeking individuals with Alcohol Use Disorder (AUD). The results of this study will be used to determine which of the 2 proposed TMS strategies has a larger effect on drinking behavior (% days abstinent, % heavy drinking days) as well as alcohol cue-reactivity in a 4 month period. These data will pave the way for TMS to be used as an innovative, new treatment option for individuals with AUD.
Effects of serotonin 2A/1A receptor stimulation by psilocybin on alcohol addicted patients: a randomized double-blind placebo-controlled study
The goal of this research is to replicate findings previously conducted in a pilot trial and to understand, mechanistically, the role of stress in the development of AUD pharmacotherapies that target noradrenergic blockade.
Transcranial direct current stimulation (tDCS) is a non-invasive, safe and easy-to-operate neuro-electrophysiological technique, which becoming an emerging therapeutic option for many mental disorders.It can modulate cortical excitability of target brain region, neuron plasticity and brain connections. Previous studies suggest that tDCS could reduce cue-induced craving in drug addiction. Objective:In this study, the investigators employed real and sham tDCS of the bilateral dorsolateral prefrontal cortex (DLPFC) to test the effect of whether it could reduce cue-induced craving, influence cognitive function in alcoholics and explore its underlying mechanism with functional magnetic resonance imaging (fMRI). Methods: The investigators perform a randomized sham-controlled study in which 40 inpatient alcoholics will be randomized to receive 10 sessions of 20min sham or 1.5mA tDCS to the bilateral DLPFC (anodal right/cathodal left). The neuroimaging data, craving after exposed to alcohol-associated cues and the cognition task at baseline and after stimulation will be collected. The investigators hypothesized that tDCS stimulating the DLPFC decreases cue-induced craving and improves cognition, which might be associated with the functional connectivity alterations.
In the absence of sufficient monetary resources, individuals must attend to immediate, minimum needs (e.g., food, shelter). This constricts one's temporal window and engenders neglect of the future. In observational studies, scarcity is associated with higher rates of delay discounting. Additionally, socioeconomic status is inversely associated with alcohol use disorder and related problems. Experimentally, scarcity shortens attention, impedes cognitive function, and increases delay discounting in multiple populations. Moreover, scarcity increases demand for fast foods in the obese and increases craving for alcohol in problem drinkers. These data suggest that economic scarcity worsens both components of reinforcer pathology (delay discounting and alcohol overvaluation), thus increasing vulnerability to alcohol use disorder. However, studies investigating the effects of scarcity on alcohol demand discounting rate have been limited. The purpose of Aim 1b is to examine effects of decreasing the temporal window and its concomitant effects on alcohol valuation (demand, and craving) and delay discounting.
Alcohol use disorder with early trauma is associated with clinical challenges, including high comorbid symptoms and relapse rates. To better understand this phenomenon, this study will examine the neurobiological mechanisms underlying the relationship between alcohol use disorder, early trauma, and the high relapse risk. The current study utilizes a multimodal neuroimaging technique combining brain and hypothalamic-pituitary-adrenal axis (HPA) measures within a prospective clinical outcome design.
Episodic future thinking (EFT) is based on the new science of prospection, which was first identified in a Science publication in 2007 and refers to pre-experiencing the future by simulation. Considerable evidence suggests that prospection is important for understanding human cognition, affect, motivation, and action. Individuals with damaged frontal areas, as well as individuals with alcohol use disorder (AUD), show deficits in planning prospectively. One systematic method to engender prospection is via EFT. EFT, as applied in our prior studies and in this proposal consists of having participants develop positive plausible future events that correspond to several future time frames (e.g., 2 weeks, 1 month, 3 months etc). For each of these timeframes participants are asked to concretize the events (e.g., What are you doing? Who will be there? What will you see, hear, smell, and feel?). We and others have used EFT to decrease delay discounting (DD) in individuals with AUD and smokers, as well as normal weight, overweight, and obese populations when compared to the control condition, control episodic thinking (CET). Consistent with reinforcer pathology, EFT also reduces alcohol valuation in the purchase task among individuals with AUD. However, no study to date has examined whether EFT reduces alcohol self-administration in the laboratory. Moreover, the neural correlates of EFT in AUD are also unknown. In these studies, we propose to test an intervention, EFT, which we hypothesize will decrease reinforcer pathology measures in a bar-like setting in the laboratory; that is, EFT will decrease delay discounting, as well as alcohol self-administration, demand, and craving compared to a control episodic thinking (CET) condition. Moreover, we hypothesize EFT will enhance activation in brain regions associated with prospection (e.g., hippocampus and amygdala) and the executive decision system (e.g., DLPFC). We will also examine the effect of EFT on real-world drinking.
In brief, ART is an innovative "mind-body" (body-centric) psychotherapy that makes use of established core components of trauma-focused therapy including imaginal exposure and imagery rescripting to promote memory reconsolidation, all facilitated as the patient is directed by the therapist to perform sets of lateral left-right eye movements similar to rapid eye movements (REM). The investigators propose to investigate how ART may directly influence heart rate variability (HRV), EEG power spectral densities, and sleep architecture in three aims. At the broadest level, the investigators postulate that both within individual ART sessions, and across the full course of treatment (e.g. up to 4 sessions), ART results in a profound shift from sympathetic (arousal) to parasympathetic (rest) nervous system balance, and that this shift can be reliably measured by neurophysiological assessment using electrocardiogram (ECG) and electroencephalogram (EEG) measurement.