Smoking is one of the main public health problems. Smoking cessation is difficult because of nicotine dependence. Repetitive transcranial magnetic stimulation (rTMS) over the frontal head has shown to be effective in the reduction of cigarette consumption and craving. In this study, we will evaluate the efficiency of a new form of rTMS called intermittent theta-burst stimulation (iTBS) for smoking cessation.
This study aims to learn more about the experiences of people with cancer who smoke who are ages 18 or older. We want to learn more about what has helped or made it difficult to quit smoking, and what patients think about using videos to help quit smoking. Interviews and surveys will be used to help us learn more about the unique needs of cancer patients who smoke, and will guide the development of interventions to help with smoking cessation.
Many people smoke cigarettes and use e-cigarettes, and have a hard time stopping. Nicotine replacement therapy medications, such as nicotine patches and lozenges, have been shown to help people quit e-cigarette use. The purpose of the present study is to see how well nicotine patches and lozenges help people quit both smoking and vaping, and to determine if higher doses of the medication work best.
The goal of this project is to better understand the relationship between tobacco/nicotine and cannabis using behavioral economics during a tobacco/nicotine quit attempt. All participants will receive tobacco/nicotine cessation treatment (smoking and/or vaping treatment) for 12 weeks. To qualify, participants must be between the ages of 18-25 and use tobacco products (smoke cigarettes and/or vape nicotine) and use cannabis (in any form). Participants do not need to be interested in quitting cannabis/marijuana to qualify. This study is being conducted by the Medical University of South Carolina. All procedures are conducted remotely and there is no in-person visits are needed.
The purpose of the study is to examine whether an investigational medication called ketamine is able to improve treatment outcomes for tobacco use disorder when delivered in conjunction with brief motivational enhancement therapy. Subjects will receive ketamine assisted motivational enhancement therapy weekly for three weeks. If you are eligible and you decide to enroll in the study, your overall participation will last approximately 8 weeks.
This study evaluates whether non-cigarette tobacco products (e-cigarettes) can help smokers quit smoking as compared to traditional quit methods (nicotine replacement therapy or varenicline/Chantix). Participants in this study will be randomly assigned to one of two groups, then will have a choice between the offered products of that group. Participants in the e-cigarette group will have a choice of e-cigarette brand and flavor. Participants in the medication group will have choice between nicotine replacement therapy (patches and lozenges) or varenicline, also known as Chantix. Participation will last 6 months and will include weekly phone calls for the initial 7-weeks plus a 11-week phone call and a 6-month follow-up visit. Participants will also complete electronic daily diaries during the first 7-weeks.
In a 2x2 design, current menthol smokers (N=240) will complete a baseline period before being assigned to a cigarette (menthol or non-menthol) and e-cigarette condition (menthol or tobacco-flavored e-liquid) and receiving a 7-week supply of cigarettes and e-cigarettes. The study builds upon our well-established methodology for simulating tobacco regulatory policies. To model a ban, smokers will be instructed to only use their assigned products. Primary outcomes include cigarette smoking and e-cigarette use during Week 6. However, because a menthol ban may impact the ability to abstain from smoking, we will incentivize participants to abstain from smoking during Week 7 (continued e-cigarette use allowed) and assess the time to first lapse. Participants will complete daily electronic diaries assessing tobacco product use throughout, which will be corroborated by biomarkers for menthol, nicotine, and smoke. Finally, to maximize the utility of these data for FDA regulation, we will assess whether any demographic or baseline smoking characteristics moderate the observed treatment effects, calibrate the treatment effects to the US adult menthol smoking population, and model the effects of menthol regulation in cigarettes and e-cigarettes on smoking and vaping-attributable deaths and life-years lost.
In a 2x2 design, current menthol smokers (N=240) will complete a baseline period before being assigned to a cigarette (menthol or non-menthol) and e-cigarette condition (menthol or tobacco-flavored e-liquid) and receiving a 7-week supply of cigarettes and e-cigarettes. The study builds upon our well-established methodology for simulating tobacco regulatory policies. To model a ban, smokers will be instructed to only use their assigned products. Primary outcomes include cigarette smoking and e-cigarette use during Week 6. However, because a menthol ban may impact the ability to abstain from smoking, we will incentivize participants to abstain from smoking during Week 7 (continued e-cigarette use allowed) and assess the time to first lapse. Participants will complete daily electronic diaries assessing tobacco product use throughout, which will be corroborated by biomarkers for menthol, nicotine, and smoke. Finally, to maximize the utility of these data for FDA regulation, we will assess whether any demographic or baseline smoking characteristics moderate the observed treatment effects, calibrate the treatment effects to the US adult menthol smoking population, and model the effects of menthol regulation in cigarettes and e-cigarettes on smoking and vaping-attributable deaths and life-years lost.
In a 2x2 design, current menthol smokers (N=240) will complete a baseline period before being assigned to a cigarette (menthol or non-menthol) and e-cigarette condition (menthol or tobacco-flavored e-liquid) and receiving a 7-week supply of cigarettes and e-cigarettes. The study builds upon our well-established methodology for simulating tobacco regulatory policies. To model a ban, smokers will be instructed to only use their assigned products. Primary outcomes include cigarette smoking and e-cigarette use during Week 6. However, because a menthol ban may impact the ability to abstain from smoking, we will incentivize participants to abstain from smoking during Week 7 (continued e-cigarette use allowed) and assess the time to first lapse. Participants will complete daily electronic diaries assessing tobacco product use throughout, which will be corroborated by biomarkers for menthol, nicotine, and smoke. Finally, to maximize the utility of these data for FDA regulation, we will assess whether any demographic or baseline smoking characteristics moderate the observed treatment effects, calibrate the treatment effects to the US adult menthol smoking population, and model the effects of menthol regulation in cigarettes and e-cigarettes on smoking and vaping-attributable deaths and life-years lost.
Cigarette smoking is a significant public health concern. Transcranial magnetic stimulation (TMS) is a non-invasive form of brain stimulation that has already displayed remarkable potential for producing novel, non-pharmacological interventions for depression and cigarette smokers. In this study, we will use brain MRI to guide TMS therapy for smoking cessation.