View clinical trials related to Tobacco Use Disorder.
Filter by:The proposed study will help fill gaps in existing research by determining if nicotine-dependent cigarette smokers show changes in α7 nicotinic acetylcholine receptor (nAChR) availability when compared to matched historical controls using positron emission tomography (PET) imaging and the radioactive ligand [18F]-ASEM (3-(1,4-diazabicyclo[3.2.2]nonan-4-yl)-6 [18F]fluorodibenzo[b,d]thiophene 5,5-dioxide), an α7 nAChR antagonist. The study will also explore whether α7 nAChR availability influences clinically relevant measures of tobacco abstinence (e.g., withdrawal and craving, cognitive impairment), self-reported cigarettes per day, and time to relapse during an 8-day quit attempt during which smokers can receive escalating payments contingent upon providing objective evidence (breath CO and urinary cotinine) of smoking abstinence.
Chronic Obstructive Pulmonary Disease (COPD) is caused primarily by smoking and smoking cessation is the first-line treatment for slowing disease progression. Despite this, nearly 50% of COPD patients continue to smoke following diagnosis. Smokers with COPD report high rates of co-occurring conditions - nicotine dependence, depression, and anxiety - which serve as barriers to quitting. The current study will pilot test a behavioral intervention designed to target the common psychological factors underlying these co-occurring conditions and foster smoking cessation among COPD patients.
Approximately 60 chronic smokers with bipolar disorder, schizophrenia or schizoaffective disorder who are motivated to try to quit smoking will be randomized to receive smoking cessation treatment with the FDA-approved medication, varenicline, delivered either a) at its standard dose and titration schedule (half of the participants) versus b) at a lower dose and slower titration schedule (the other half), for 12 weeks. All smokers will choose a target quit date sometime between 8 to 35 days after starting the medication. All participants will receive ten 30-minute sessions of a behavioral treatment called Acceptance and Commitment Therapy (ACT). Participants will be followed for an additional 12 weeks off study medication. The major endpoint is the feasibility of combining ACT with the different dosing strategies. Investigators will also conduct a blood test that measures the breakdown of nicotine in the body to explore whether that measure influences treatment response and side effects.
The purpose of this research study is to examine the effects of theta-burst Transcranial Magnetic Stimulation on inhibitory control and smoking among adult cigarette smokers.
This project will develop and refine a computer-delivered integrated Personalized Feedback Intervention (PFI) that directly addresses smoking and distress tolerance. The PFI will focus on feedback about smoking behavior, distress tolerance, and adaptive coping strategies.
Due to the pandemic, this study was modified from a randomized clinical trial to test the feasibility, initial efficacy, and mechanisms of action of our PTSC-S intervention to a feasibility and acceptability test of our intervention when delivered via telehealth in a single group, within-subjects design.
Adolescents are an important vulnerable population to consider as the FDA moves toward a nicotine reduction policy. Such a policy, which would mandate a reduction of nicotine in all commercially available cigarettes, has the potential to transform public health and greatly reduce the toll of tobacco-related death and disease. Yet, data on the effects of such a policy on cigarette use among adolescents are lacking. Further, the advent of e-cigarettes and the popularity of alternative tobacco products have fundamentally altered the current landscape of nicotine delivery, and these products are widely used by adolescents. Although adolescent cigarette use is at an all-time low in the U.S., this reduction has been mirrored by an increase in e-cigarette use, and multiple tobacco product (MTP) use is the most common pattern of use in youth. Adolescent MTP users are more likely to be dependent on nicotine and to have begun using tobacco earlier than their single-product using peers. Thus, MTP-using youth differ from youth who solely smoke cigarettes in meaningful ways that have implications for responses to a nicotine reduction regulatory policy. In adults, longer-term studies have demonstrated that very low nicotine content (VLNC) cigarette exposure results in fewer cigarettes smoked and reduced toxicant exposure; however, increased use of alternative tobacco products has also been reported. No studies to date have examined the effects of VLNC cigarettes on MTP use or toxicant exposure in youth. This study will use real-time, smartphone-based ecological momentary assessment (EMA) and laboratory-based assessments to: (1) investigate the effects of cigarette nicotine reduction on cigarette and MTP use, (2) assess the influence of cigarette nicotine reduction on the harms associated with tobacco use, including nicotine and toxicant exposure, respiratory symptoms, perceived health risk and nicotine dependence, and (3) use a combination of laboratory and real-time assessment to investigate the effects of nicotine reduction on changes in withdrawal, craving, and the reinforcing efficacy of cigarettes to characterize the mechanisms by which VLNC use may affect behavior. Overall, this project will help determine the effects of VLNC cigarettes on real-world tobacco use behavior and indices of tobacco-related harm in adolescents, and examining the mechanisms through which nicotine reduction in cigarettes may effect such changes.
The primary objective of this study is to determine whether the application of transdermal nicotine patches in critically ill patients after major surgery with nicotine abstinence condition is associated with a lower incidence of delirium.
The addition of tDCS as an adjunct to pharmacotherapy is a novel approach but one that is grounded in a growing evidence-base.The primary objective of this research is to provide preliminary evidence of the effectiveness of tDCS as an adjunct treatment to pharmacotherapy for smoking cessation. The investigators hypothesize that the addition of active tDCS to the left DLPFC will improve the effectiveness of varenicline as reflected by higher quit rates at end of treatment compared to the sham group. Smoking status will be biochemically confirmed at various time points using expired cotinine measures. Furthermore, the investigators will be collecting neuroimaging (fMRI) data as well as measures of attentional bias to explore the neurological and physiological correlates from using adjunct tDCS and varenicline therapy.
This study will examine the short-term cardiovascular (CV) effects of e-cigarette device power in a randomized, crossover clinical and behavioral pharmacology study of experienced adult e-cigarette users (N=21). The specific aim is to determine the impact of e-cigarette power on nicotine pharmacology, systemic exposure to toxic volatile organic compounds (VOCs), and short-term cardiovascular effects.