300,000+ clinical trials. Find the right one.

180 active trials for Alcohol Use Disorder

Ghrelin Signaling Via GOAT Inhibition in Alcohol Use Disorder

Background: People with alcohol use disorder (AUD) have trouble controlling their drinking. Medications can help some people with AUD but are not effective for many others. Researchers want to test new drugs to better treat the disease. Objective: To see if the drug GLWL-01 is safe to use in people with alcohol problems. Also, to find out if the drug reduces the urge to drink alcohol. Eligibility: People ages 18-70 who are seeking treatment for AUD Design: Participants will be screened under protocol 14-AA-00181. Participants will be admitted to the NIH Clinical Center for up to 32 days. They may leave the hospital some of the time. All their meals will be provided. They cannot drink alcohol. Participants will take either the study drug or a placebo by mouth twice daily. They will not know which they are receiving. Participants will complete many questionnaires. Participants may have urine tests. Participants will complete tasks on a computer. Participants will have blood tests each day. Participants will taste and indicate their preference for sweet liquids. Participants blood pressure, pulse, respiratory rate, body temperature and weight, heart rate and rhythm will be measured. Participants will have breath testing to obtain information about smoking. Participants will be exposed to alcohol cues, water, and food cues in a bar-like room. Cues are things that might make them feel the urge to eat or drink alcohol. Participants will take part in a virtual buffet experiment. They will wear a virtual reality headset, walk around a virtual room, and select virtual food and drink. ...

Start: June 2021
Brexpiprazole in Alcohol Use Disorder

Few medications are currently Food & Drug Administration (FDA)-approved for the treatment of Alcohol Use Disorder (AUD), and those that are have, on average, modest effects on drinking. "Precision medicine" research has explored whether patient-level variables, such as genetic variation, may identify subgroups of individuals with larger medication effects, but few findings have been replicated. A promising novel medication for AUD is brexpiprazole (BREX), a serotonin/dopamine activity modulator (SDAM). The investigators conducted a prior study in which the effects of another SDAM, aripiprazole, were influenced by genetic variation in the gene encoding the dopamine transporter (DAT1). This study will evaluate the effects of two doses of BREX, relative to placebo, among non-treatment-seeking individuals with AUD, and will test whether DAT1 genotype influences these effects. Primary outcomes are drinking under natural conditions and in a laboratory paradigm. Functional magnetic resonance imaging (fMRI) will be used to explore whether BREX effects on brain activation associated with cognitive control or elicited by alcohol cues accounts for its effects on drinking. The investigators hypothesize that BREX, relative to placebo, will reduce drinking under natural conditions and in the lab, and will do so to a greater extent among individuals who carry the DAT1 9-repeat allele, relative to those homozygous for the 10-repeat allele. If these hypotheses are supported, BREX may represent a novel pharmacogenetic treatment for AUD.

Start: October 2020
Effect of Theta Burst Stimulation on Alcohol Cue Reactivity

Alcohol Use Disorder (AUD) is prevalent, devastating, and difficult to treat. The intransigence of AUD is readily apparent in the Trauma Unit of Wake Forest University Baptist Hospital, wherein 23% of trauma related admissions are associated with alcohol - higher than the national average of 16%. Of these trauma related admissions, over 70% are estimated to have AUD and 41% will be likely be admitted to the trauma unit again within 5 years. While Dr. Veach (Co-Investigator) and her team in the Department of Surgery have demonstrated that a brief counseling intervention on the inpatient trauma unit can decrease morbidity and recidivism, the rates of AUD and relapse to drinking among these individuals remains very high. With a growing knowledge of the neural circuits that contribute to relapse in AUD, there is an emerging interest in developing a novel, neural-circuit specific therapeutic tool to enhance AUD treatment outcomes. This will be achieved through a double-blind, sham-controlled cohort study in 48 heavy alcohol drinkers with a history of alcohol-related injury. The brain reactivity to alcohol cues (Incentive Salience) and cognitive performance in the presence of an alcoholic beverage cue (Cognitive Control) will be measured immediately before and after participants receive real or sham intermittent theta burst stimulation (iTBS- a potentiating form of transcranial magnetic stimulation (TMS)) to the dorsolateral prefrontal cortex (dlPFC iTBS). The goals of this pilot study are to quantify the acute effect of a single session of real or sham dlPFC iTBS on brain response to alcohol cues (Aim 1) and cognitive flexibility in the presence of an alcohol cue (Aim 2) among risky drinkers (target engagement ).

Start: August 2020
Familial Risk for Bipolar Disorder and Alcohol Sensitivity

Early identification in individuals with bipolar disorder who are at risk for AUDs could inform novel intervention strategies and improve life-long outcomes. The primary objective of this protocol is to use alcohol administration procedures and alcohol biosensor technology to investigate responses to alcohol, compared to placebo, and relationship with parental risk for alcohol use disorders and/or bipolar disorder in young adults. Baseline clinical, cognitive, and behavioral assessments will be completed in 100 young adults (21-26 years; 50% women, no history of AUDs>mild). Participants would be equally divided among those with parental history of bipolar disorder but not AUDs, parental history of bipolar disorder and AUDs, parental history of AUDs but not bipolar disorder, and typically developing age- and sex-matched controls with no parental history of mood disorders or AUDs (N=25 per group). Then, while wearing Secure Continuous Remote Alcohol Monitoring [SCRAM] sensors, participants will complete within-person, counter-balanced, beverage sessions (following standard beverage administration procedures) in a simulated bar laboratory. Changes in heart rate, body sway and subjective self-report measurements of intoxication will also be completed while under the influence of alcohol or placebo. Specifically, individual differences in transdermal alcohol concentration (the primary data output from SCRAM sensors), physiological changes (e.g. heart rate), and the experience of stimulating, sedative, and anxiolytic effects of alcohol (measured with self-report surveys) will be investigated and differences between parental risk subgroups and healthy comparison participants investigated. Differences in transdermal alcohol concentration collected while under the influence of alcohol will be the primary data outcome assessed. Changes in heart rate, body sway, and experience of stimulating, sedative, and anxiolytic effects (from self-report survey data) while under the influence of alcohol compared to placebo session will also be investigated. Additionally, associations between objective and subjective responses to alcohol and drinking patterns will be explored (secondary outcome). The primary endpoint of the study will be after completion of both alcohol and placebo beverage conditions.

Start: May 2021