View clinical trials related to Cocaine Dependence.
Filter by:Doxazosin, an alpha 1-adrenergic receptor, may play an important role in cocaine addiction in humans. This study will evaluate the effectiveness of doxazosin in preventing drug relapse among cocaine dependent participants.
The purpose of this study is to develop a model for long-term maintenance of behavior change by examining the effects of extending the duration of contingency management (CM) for drug abuse on long-term abstinence outcomes. The primary hypothesis is that the Extended (36 week) CM group will have better long-term outcomes as exhibited by greater rates of abstinence at each follow-up assessment as compared to the Standard (12 week) CM group.
The purpose of this study is to compare the efficacy of the combined treatment modafinil + Contingency Management (CM) to either treatment condition alone or to yoked-controls on cocaine abstinence. To investigate the role of modafinil-related improvements in memory, impulse control, and attention in mediating cocaine abstinence.
The purpose of this study is to examine the effects of propranolol versus placebo on responses to cocaine cues in cocaine dependent individuals.
We are testing to see if Galantamine, a learning enhancing medication, will help methadone maintained cocaine abusers with their learning and memory specific to CBT using an innovative CBT computer program.
This is the first study to be conducted in humans for RTI-336, a new chemical entity, with evaluations focusing on the safety, tolerability, and pharmacokinetics of RTI-336 following administration of single, oral doses. RTI-336 is a novel dopamine transporter inhibitor of the 3-phenyltropane class, and is currently being developed by RTI International as a potential pharmacotherapy to treat cocaine dependence. Data from this study will be used to plan and define dose ranges for subsequent studies.
The dopamine system is critical in modulation of reward and has been implicated in the initiation and maintenance of addiction (Volkow et al 2004). Medications that increase dopamine either directly or indirectly have been shown to have preliminary efficacy at reducing cocaine use in cocaine dependent subjects (Grabowski et al 2004a; Schmitz et al 2008). A novel class of medications that has recently been shown to indirectly modulate dopamine function is adenosine A2A receptor antagonists (Fuxe et al 2007). Based on their effect on dopamine function it has been suggested that these compounds may be efficacious in the treatment of drug addiction (Ferre et al 2007c). Before clinical efficacy studies are undertaken, more basic research on the effects of adenosine A2A antagonists on brain function and behavior are warranted. The aim of this study is to examine the acute effects of a single dose of the selective adenosine A2A antagonist (SYN115, Synosia Therapeutics, Chemical name: 4-Hydroxy-4-methyl-piperidine-1-carboxylic acid-(4-methoxy-7-morpholin-4-yl-benzothiazol-2-yl)-amide) on brain function and behavior in cocaine dependent individuals using functional magnetic resonance imaging (fMRI). To examine the effect of a single dose of SYN115 on brain function and behavior in cocaine dependent subjects. Hypotheses: 1. SYN115 100 mg will increase brain activation in the dorsolateral prefrontal cortex compared to placebo in cocaine dependent subjects performing a working memory task. 2. SYN115 100 mg will increase brain activation in the ventral striatum compared to placebo in cocaine dependent subjects performing a reversal learning task. 3. SYN115 100 mg will reduce brain activation in the anterior cingulate gyrus and amygdala compared to placebo in cocaine dependent subjects performing a cocaine-word Stroop task.
Background: - The effectiveness of methadone maintenance for treatment of heroin addiction has been well established. However, patients maintained on methadone may relapse to cocaine use, even when they are enrolled in a comprehensive treatment program. Relapse has been attributed to several factors, including drug-associated environmental stimuli. - Aripiprazole is a drug used to treat schizophrenia and bipolar disorder, but it may have other uses. Research has shown that aripiprazole can reduce cocaine-seeking behavior in rats, and it has been investigated for use in treating amphetamine dependence. More research is needed to determine whether aripiprazole can prevent relapse to cocaine use in patients being treated with methadone. Objectives: - To determine whether aripiprazole prevents relapse to cocaine use more effectively than placebo in cocaine-abstinent patients maintained on methadone. Eligibility: - Individuals between 18 and 60 years of age who are current cocaine users seeking methadone treatment. Design: - The study will last up to 41 weeks, with four phases of treatment and a follow-up evaluation. Three times a week, participants will be asked to report illicit drug use and provide urine and breath samples. Throughout the study, participants will receive individual counseling in weekly 40 60 minute sessions. Other samples and tests will be scheduled as required by the study researchers. - Patients will be stabilized on daily methadone over the first 14 days of the study. - Weeks 1 14: Participants will receive vouchers for regular cocaine-free urine samples. Those who successfully complete this phase will continue to the next part of the study. - Weeks 13 27: Participants will receive either aripiprazole or placebo along with their methadone. During this part of the study, participants will keep electronic diaries to record cocaine use or craving and to record data on mood and activity. - Weeks 28 33: Participants will stop taking the aripiprazole or placebo, but will continue the methadone treatment. Participants will continue to use the electronic diaries. - Weeks 34 41: Participants will have the choice of transferring to a community clinic or gradually reducing doses of methadone to end the study. - Participants will return for a follow-up visit and urine sample 6 months after the end of the study.
To evaluate the efficacy of VIVITROL (naltrexone for extended-release injectable suspension) for the treatment of co-occurring cocaine and alcohol dependence
Cocaine dependence is an insidious disease underscored by a powerful proclivity to relapse despite an individual's ability to recognize the deleterious consequences of continued drug use. To date, there are only a limited number of treatments, and no FDA approved medications for the treatment of cocaine dependence. Attempts to find reliable and successful treatments for cocaine dependence may be marred by gender differences in brain chemistry, structure, and function that are manifested as drug craving and relapse. For example, cues, drug exposure, and stress promote relapse, yet females appear be more susceptible to stress induced relapse, while males may be more susceptible to cue induced relapse. Therefore identifying the neural substrates involved in processing the valence of internal and external stimuli may provide further insight into cocaine dependence and provide more effective therapeutic strategies aimed at preventing relapse. Corticotropin releasing hormone (CRH) is a pharmacological activator of the hypothalamic pituitary adrenal (HPA) axis, and has been implicated in stress induced drug relapse. Corticotropin releasing hormone receptors are located at extrahypothalamic brain nuclei that have been implicated in determining the significance of both internal (somatic) and external (environmental) stimuli. The primary directive of this pilot project is to utilize functional magnetic resonance imaging (fMRI) to identify possible brain nuclei associated with with stress induced drug craving in cocaine dependent females.