View clinical trials related to Cocaine-Related Disorders.
Filter by:This project will examine effects of bupropion extended release (XL) at a dose of 300mg/day for cocaine abstinence among persons receiving methadone for the treatment of opioid use disorder. Participants also earned financial incentives for providing urine samples that tested negative for cocaine. Bupropion was examined for this purpose because of its previously demonstrated efficacy and safety as well as its pharmacological actions at dopamine systems. Participants were randomly assigned to bupropion XL vs. placebo and received different incentive schedules depending on whether they demonstrated abstinence from cocaine early in the study. Outcomes were tracked over a 6-month time frame and the overarching hypothesis was that bupropion (as compared to placebo) would increase the number of urine samples testing negative for cocaine, independent of whether participants demonstrated abstinence from cocaine early in the study.
The study is investigating the impact of progesterone and estrogen on brain areas that are involved with stress response and drug craving. The study will involve 40 women who will participate in the Montreal Imaging Stress Task (MIST) while undergoing fMRI scanning procedures. Half of the women will complete the procedures during the luteal phase of the menstrual cycle; the other half will complete procedures during the follicular phase. Subjective and physiological measures (cortisol levels) will be used to measure stress and craving response. Hypothesis 1A is that all women will exhibit increased craving, stress response, salivary cortisol and BNST and limbic nuclei activation in response to the MIST task. Hypothesis 1B is that these increased responses will be higher for women in the luteal phase than for women in the follicular phase of the menstrual cycle.
In this study, eligible crack-cocaine addicted inpatients recruited from specialized clinics for substance abuse disorder treatment, filling inclusion criteria and not showing any exclusion criteria, were randomized to receive the repetitive (10 sessions, every other day) bilateral dorsolateral Prefrontal Cortex (dlPFC: cathodal left / anodal right) tDCS (2 milliamperes, 3x7 cm2, for 20 min) or placebo (sham-tDCS). Craving to the use of crack-cocaine was examined before (baseline), during and after the end of the tDCS treatment. Based in our previous data, our hypothesis was that repetitive bilateral tDCS over dlPFC would favorably change clinical, cognitive and brain function in crack-cocaine addiction and these would be long-lasting effects.
The purpose of this study is to examine the role of brain MRI findings in predicting treatment outcomes among individuals with cocaine dependence.
This project proposes to investigate the role of brain connectivity in the mechanism of treatment response to dopaminergic medications in cocaine dependence.
The primary purpose of this study is to evaluate the feasibility and estimate the efficacy of psilocybin-facilitated treatment for cocaine use. We also will monitor the impact of psilocybin-facilitated treatment on the use of other drugs and outcomes relevant to cocaine involvement (e.g., criminal involvement). MRI assessment is a unique aspect of this study. As a potential biological mechanism of psilocybin's effect includes changes in default mode network functional connectivity (Carhart-Harris et al., 2012), we will determine if psilocybin's therapeutic effects are mediated by such changes. Moreover, as Glx (a brain metabolite that reflects glutamate) abnormalities have been shown to play a role in cocaine addiction, we will determine if psilocybin impacts Glx in the anterior cingulate cortex and hippocampus.
This study is being done to measure the number of brain cells that grow in the brain throughout our lives while determining an effective way to complete this with an MRI (Magnetic Resonance Imaging) scanner. The number of these brain cells may be affected by cocaine use. Researchers are trying to understand the long-term effects of cocaine use on the brain.
This study looks to explore the feasibility, sensitivity, validity, and specificity of a Remote Wireless Sensor Network (RWSN) approach to the detection of cocaine use/intoxication in the inpatient human laboratory, as well as in the outpatient setting ("real world"). Lastly, we look to design an algorithm for reliably detecting cocaine use in real-world settings and inference techniques for understanding the relationship between cocaine use and user contexts.
This study will investigate a treatment strategy in which a computer-assisted behavioral intervention will be used to help individuals stop their use of cocaine. A medication will be combined with the behavioral treatment among those individuals who do not respond to the behavioral intervention alone. The primary hypothesis of the study is that among cocaine dependent individuals who fail to respond to an initial trial of behavioral therapy, a greater proportion of individuals will benefit from the combined treatment (behavior therapy plus medication) compared to individuals in the comparison group.
This study will, in a sample of cocaine-dependent and healthy control subjects, administer corticorelin and compare dopamine release between groups. Dopamine release will be measured using PET neuroimaging with the radiotracer [11C]-(+)-PHNO.