View clinical trials related to Tobacco Use Disorder.
Filter by:In this pilot study, menthol cigarette smokers will be randomized to one of three experimental marketplaces: 1) a condition simulating a ban on menthol cigarettes but not menthol e-cigarettes (condition A); 2) a condition simulating a ban on both menthol cigarettes and menthol e-cigarettes (Condition B); and 3) a condition in which menthol is not banned for either product (Condition C - the control condition). All conditions would have medicinal nicotine available if subjects decide to quit tobacco products entirely. At visits occurring every two weeks over a 6 week period, subjects will receive "credits" that they could exchange for any product available in their randomized marketplace condition. Outcomes include the amount of each tobacco product used.
In this pilot study, the feasibility of using tDCS (a non-invasive brain stimulation technique) while performing a task requiring cognitive flexibility will be examined in smokers and initial data will be collected regarding the effect of tDCS on smoking cessation behaviors. Smokers will be randomized to receive either active or sham tDCS daily for 5 days after which they will attempt to quit smoking. Smoking behavior after the attempted quit date will be assessed at four weekly visits.
This project will develop and refine a computer-delivered integrated Personalized Feedback Intervention (PFI) that directly addresses smoking and anxiety sensitivity (AS). The PFI will focus on feedback about smoking behavior, AS, and adaptive coping strategies.
This 2 x 2 factorial, randomized, double-blind, placebo-controlled trial will test two interventions: directly observed medication therapy, and long-term therapy with varenicline among smokers with opioid use disorder recruited from community-based, outpatient opioid treatment programs. The analytic strategy will evaluate the milestones in smoking cessation-achieving initial abstinence, preventing lapse and preventing relapse--necessary for long-term cessation, and evaluate theoretically-guided psychological and social factors and pharmacogenetic factors that influence these cessation processes.
The purpose if this study is to determine if five treatments of repetitive transcranial magnetic stimulation (rTMS) can reduce craving for cigarettes in smokers. rTMS uses magnetic pulses to stimulate the brain and is currently approved for the treatment of major depressive disorder.
This proposal addresses the critical absence of information about the neurobiology of recovery from Alcohol Use Disorder (AUD) in alcohol and nicotine users.
Smoking remains the leading cause of preventable death in the United States, and current first-line treatments leave the majority of tobacco dependent individuals unable to quit. The inability to quit despite motivation to do so, is thought to result in part, from self-control failure. Working memory (WM) deficits contribute to imbalanced self-control and allow automatic impulses to drive behavior. Thus, WM plays a critical role in addictive behavior, and is particularly relevant to smoking. Indeed, a strong link between WM and smoking has been established in the literature; most notably, degree of WM impairment and deficits in activation in associated brain regions predict time to relapse, and WM moderates the relationship between craving and relapse. Given these insights, researchers have been examining interventions that may target WM including WM training (WMT) and repetitive Transcranial Magnetic Stimulation (rTMS). WMT involves taxing this executive function repeatedly over time and has shown positive preliminary results in improving measures of self-control and reducing consumption of addictive substances. Similarly, rTMS, a non-invasive brain stimulation procedure that stimulates neuronal tissues and increases cortical excitability, has been shown to increase WM capacity and reduce craving and consumption of several addictive substances including nicotine. While these interventions have demonstrated initial promise in affecting addictive behaviors, the magnitude and durability of their effects may be limited. Recently, researchers have posited - but not yet empirically tested - that WMT administered in combination with rTMS may result in an additive or supra-additive effect in treating addictive processes. This is highly significant; the clinical utility of rTMS over current first line treatments may be limited if factors with potential to enhance its effectiveness are not examined. Given these recent advances in the literature, the primary objective of the proposed study is to evaluate the individual and combined effects of Working Memory (WM) training and repetitive Transcranial Magnetic Stimulation (rTMS) on WM performance and smoking behaviors as well as critical mediators of these effects. These aims will be examined in a sample of tobacco dependent adults (N=130) utilizing a 2x2 factorial experimental design including four groups (WMT+rTMS, sham WMT+rTMS, WMT+sham TMS, and sham WMT+sham rTMS) capable of isolating independent and combined effects of WMT and rTMS.
Tobacco use is the most preventable cause of disease, disability, and death in the United States. Standard smoking cessation care (cognitive behavioral therapy and nicotine replacement therapy), is effective in approximately 20% of the cases, clearly indicating there is substantial room for improvement. Current work suggests that despite standard interventions, continued substance abuse may result from addictive behaviors governed partly through automatic processes that exert their influence outside conscious control. This is important from a treatment perspective, as we should develop treatments to target implicit processes. Among a number of promising targets for intervention, cognitive biases are important to address as they have been implicated as maintenance factors for addiction. Approach bias, defined as the automatically activated action tendency to approach smoking-related stimuli, is a relatively novel cognitive bias and has been related to failed smoking cessation. A recently developed task for approach bias assessment is the Approach Bias Retraining (ABR), a computerized joystick task increasingly used to measure automatic approach tendencies in addiction research. This clinical trial will evaluate a smoking cessation intervention that integrates standard care with approach bias retraining. Results will provide novel information regarding the potential benefits of engaging implicit cognitive biases as a means to augment traditional smoking cessation therapy. This study has the potential to help individuals attempting to quit smoking and, ultimately, provide unique information about the importance of targeting implicit processes to complement standard care.
This study will examine how real-time functional magnetic resonance imaging (rt-fMRI) feedback can be used to modulate brain activation in the context of smoking cues in order to resist craving. Participants will complete a total of three fMRI scanning sessions with a cue suppression task with or without neurofeedback training (NFT). Participants will be randomized to an active group (active NFT) or a control group (no NFT) during the scanning sessions. At the end of the third session, all participants will complete a validated smoking lapse laboratory paradigm to evaluate effects of NFT on smoking behavior.
The purpose of this research is to study a smoking cessation program for adult smokers in Northeast Ohio. The study will also look at how different people respond to the program.