View clinical trials related to Cocaine Dependence.
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.
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.
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.
Examine the interaction between stimulants, such as cocaine and methylphenidate, and impulsivity.
Stress is associated with drug craving and relapse in substance-dependent individuals. Hormones released from the brain may mediate the behavioral response to stress. For example, several studies have indicated that oxytocin reduces stress in laboratory stress paradigms. Specifically, it appears that oxytocin promotes trust, social interaction, and calmness; yet, little is known about the potential affects of oxytocin in cocaine-dependent individuals. Given these properties of oxytocin, it may have a therapeutic role in ameliorating the negative affect commonly observed prior to relapse in cocaine-dependent individuals, as well as the anxiety associated with withdrawal. This pilot protocol will provide important preliminary data on the effect of oxytocin on stress in cocaine-dependent individuals.
Cocaine use disorders affect approximately 1.5 million Americans annually. Currently, there are no US Food and Drug Administration approved medications for treatment of cocaine dependence; however, both animal and human studies suggest that medications affecting the noradrenergic system can reduce cocaine craving and use. The investigators will study the effect of doxazosin, an alpha-1 adrenergic antagonist, in reducing cocaine use and anxiety symptoms among cocaine-dependent individuals. In addition, the investigators will identify genetic subpopulations of participants who preferentially respond to the medication.
Cocaine-use disorders continue to be a significant public health concern, yet no effective medications have been identified. The goal of this study is to establish a research platform for the development of medications for treatment of cocaine abuse and dependence. This study will incorporate self-administration procedures and a non-drug alternative reinforcer, which is hypothesized to reduce the reinforcing effects of cocaine.