View clinical trials related to Cocaine-Related Disorders.
Filter by:Transcranial direct current stimulation (tDCS) is a form of non-invasive brain stimulation in which low level electrical currents are applied to the scalp in order to alter brain function. In the present study, tDCS will be administered with the goal of assessing the tolerability and feasibility of this approach to 1) reduce an individual's level of drug craving and 2) provide evidence to support the use of this device by the patient for future unsupervised stimulation in a non-clinical setting. Research Questions: - Can tDCS be used successfully to train cocaine addicted individuals for self-administration purposes? - Can active tDCS be used to decrease drug craving in individuals with cocaine use disorders? - Does active tDCS outperform sham tDCS in reducing drug craving?
Cocaine abuse is associated with serious physical, psychiatric and social problems. Addiction results in the compulsive use of a substance with loss of control and persistence despite the negative consequences.The act of re-engaging in the search for drugs is called relapse and a particularly insidious aspect of addiction is that vulnerability to relapse lasts for many years after stopping drug use. The main reason why people continue to use cocaine is because of its influence on the reward system.Indeed, this substance makes it possible to increase the level of dopamine, particularly in the nucleus accumbens.This increase in dopamine is not related to the hedonic pleasure that consumption provides. Instead, it imprints a positive value to enhancers and facilitates the learning of reward associations through the modulation of the cortical and subcortical regions of the brain.In other words, it suggests that users become sensitive to a series of stimuli that combine with a rewarding feeling, which drives them to consume when they encounter them. N-acetylcysteine (NAC) has been used for a long time, mainly as mucolytic. It has also been used as a glutathione antioxidant precursor in the treatment of paracetamol overdose for more than 30 years. NAC has shown beneficial effects in animal models of cocaine addiction by reversing neuroplasticity and reducing the risk of restoring consumer behavior in rodents. Human studies show that NAC is potentially effective in preventing relapse in abstinent patients and ineffective in reducing current consumption. In this study the investigators will test a sample of newly detoxified (and therefore abstinent) patients who have taken a 3-4 week course of treatment, in order determine if NAC can be a useful medication candidate to avoid relapse in patients with cocaine dependence.
Background: Cocaine use disorders (CUD) is a complex brain disorder, involving several brain areas and neurocircuits. Effective treatments for CUD are still needed. Repetitive transcranial magnetic stimulation (rTMS) stimulates non-invasively parts of the brain. Preliminary data suggest that rTMS may help reducing cocaine craving and consumption. Researchers want to learn how the brain and the drug-seeking behavior may change with this treatment. Objectives: To test if rTMS can reduce cocaine craving and use, and also affect several mood, behavioral and cognitive alterations associated with prolonged cocaine use. Eligibility: Healthy, right-handed adults ages 18-65 who do have cocaine use disorder (moderate to severe). Design: This is a randomized, double-blind, sham-controlled study. The study includes three phases: 1) a rTMS continued treatment phase; a rTMS follow-up; and a no rTMS follow-up. Prior to participating, participants will be screened with: - Questionnaires - Medical history - Physical exam - Urine tests - MRI (structural) After being enrolled, baseline behavioral and imaging data will be collected. In particular, participants will undergo: - Questionnaires - Functional MRI During the continued rTMS phase, participants with cocaine use disorder will be randomized to receive real or fake rTMS. Repetitive TMS will be delivered during 10 outpatient treatment days, over 2 weeks (5 days/week). Following this phase, subjects will have 12 follow-up visits (once/weekly), during which they will receive rTMS, and behavioral and imaging assessments will be performed. At the end of the rTMS follow up period, participants will further receive 3 follow up visits (once a month), during which rTMS will not be performed, but behavioral data will be collected. Treatment includes: - rTMS: A coil is placed on the head. A brief electrical current passes through the coil. At each visit, participants will receive two rTMS sessions, with a 1hr interval between sessions. At the beginning of each rTMS session, they view cocaine-related images for few minutes. - MRIs at baseline and at follow-up visit #12: Participants lie on a table that slides into a cylinder that takes pictures of the brain. They respond to images while in the scanner. - Repeat of screening tests and questionnaires - Urine toxicological screen
This study evaluates the use of N-acetylcysteine in the treatment of alcohol and cocaine use disorders. Alcohol users will be split in two groups, one will receive the active N-acetylcysteine and the other placebo. The same division will occur with cocaine users. The effects of N-acetylcysteine in adherence, abstinence, psychiatric symptoms and stress biomarkers will be evaluated.
The purpose of this study is to investigate the short and long term clinical and cognitive effects of repetitive Transcranial Magnetic Stimulation (rTMS) at 5 Hz and/or 10 Hz frequencies on the left dorsolateral prefrontal cortex in cocaine dependent patients and to examine possible changes in brain structure and functional connectivity associated with this intervention.
Background: More effective treatments for people with cocaine use disorder are needed. Researchers want to understand the parts of the brain involved in the disorder. Transcranial magnetic stimulation (TMS) stimulates parts of the brain. A form of TMS called intermittent theta-burst stimulation (iTBS) may help reduce cocaine use. Researchers want to learn how the brain might change with treatment. Objectives: To test if iTBS can reduce cocaine use. Also, to learn how cocaine changes the heart and the brain. Eligibility: Healthy, right-handed adults ages 18-60 who do or do not have cocaine use disorder. Design: Participants will be screened with: - Questionnaires - Medical history - Physical exam - Blood and urine tests - Alcohol breath tests In the pilot study, 10 participants with cocaine use disorder will have 10 treatment days over 2 weeks. Half will be inpatient and half will be outpatient. They will have 2 follow-up visits. Treatment includes: - iTBS: A coil is placed on the head. A brief electrical current passes through the coil. They view cocaine-related images during each session. Sessions are videotaped. - Repeat of screening tests - In the main study, participants will be randomly assigned to have either real or fake iTBS. - Participants with cocaine use disorder will join an incentive program to quit. - Participants will have 39 visits over 6 months. These include: - Repeat of screening tests - MRIs at 5 visits: Participants lie on a table that slides into a cylinder that takes pictures of the brain. They respond to images while in the scanner. - iTBS at 10 visits (5 days a week for 2 weeks) Participants will be contacted throughout the study to discuss iTBS treatment and drug use.
Cocaine addiction is a chronic condition with severe cardiac, neurologic, psychiatric and social complications. Cocaine is the second most consumed illicit drug in France. Its prevalence has been multiplied by 3 between 2000 and 2008, and is still on the rise. Craving, the compulsive need to consume, is a key feature of cocaine addiction. It is also predictive of treatment efficacy. However, there is no validated treatment for severe cocaine dependence yet. Response to current psychological and medical treatment is poor, with 73% relapse after 3 months. Patients with severe cocaine addiction are thus in a therapeutic deadlock. To address these unmet medical needs, the investigators designed a pilot study (n=2) to evaluate the safety and the efficacy of the deep brain stimulation of the subthalamic nuclei (STN-DBS) in severe cocaine addiction with at least one cardiac, neurologic or psychiatric complication. Indeed, compulsivity is a critical component of craving, and severe treatment-resistant obsessive compulsive disorder (OCD) are already successfully treated using STN-DBS. Moreover, animal studies recently demonstrated a therapeutic effect of STN-DBS in rats addicted to cocaine. Together, these two lines of research suggest a therapeutic effect of STN-DBS in cocaine addiction mediated by an anti-obsessive mechanism on craving.
The purpose of this study is to examine anhedonia as a potential moderator of treatment outcomes for Cocaine Use Disorder (CUD). Specifically, this study will investigate how anhedonia affects outcomes in contingency management (CM) treatment for CUD and whether anhedonia mediates the effects of adjunctive treatment with a dopaminergic (DAergic) drug, d-amphetamine, on outcomes in CM for CUD, as well as investigate the contribution of anhedonia to overall CUD severity.
The purpose of this study is to assess the safety and preliminary efficacy of an anti-cocaine vaccine called dAd5GNE in cocaine-dependent individuals. It uses the concept of a vaccine to treat the neurological effects of cocaine by evoking "immunity" to prevent the effects of cocaine on the brain.
Even in the absence of a preliminary diagnosis of Attention Deficit Hyperactivity Disorder, symptoms of attention deficit, hyperactivity and cognitive impairment are common in cocaine addicts. Several factors indicate that repetitive transcranial magnetic stimulation might be a strategy to aid in the treatment of symptoms of attention deficit hyperactivity disorder and cognitive function in cocaine addicts. However, up to current days there have been no studies evaluating the effects of Repetitive Transcranial Magnetic Stimulation (rTMS) on neurocognitive performance of individuals suffering from the ADHD.