View clinical trials related to Smoking Cessation.
Filter by:This study aims to see how feasible a mobile app based virtual reality program for smoking cessation (MindCotine) would be among Stanford cancer center patients
The EMA-based intervention in this proposal is aimed to motivate the majority of smokers who do not prefer to use traditional cessation aids for quitting and help them quit smoking. The smartphone application (app) and the EMA-based phone reminders at low cost and short intervention time make this approach attractive for the majority of smokers. Identification of accurate and specific pro-smoking cues in the real-word and real-time environmental cues via the app will provide valuable information to guide new tobacco control policies.
The purpose of this research is to learn more about how access to digital resources impacts healthcare and smoking cessation in rural areas of Minnesota, Iowa, and Wisconsin. Aim 1: Conduct a pragmatic randomized clinical trial and use mixed methods to assess the impact of providing access to technology and/or coaching support on participation in and response to a digital, evidence-based behavioral health program for smoking cessation. Aim 2: Assess the feasibility and patient experience of providing electronic remuneration and a loaner device with data plan coverage to access the Internet for remote clinical trials participation.
This placebo-controlled Phase 3 study is being conducted at sites within the United States to evaluate 3 mg cytisinicline TID for treatment duration of 42 days/6 weeks as well as repeating that duration for a total of 84 days/12 weeks treatment.
This three-group randomized double-blind placebo-controlled trial (N=180) will evaluate the impact of combination zonisamide and bupropion on the process of switching from combustible cigarettes (CCs) to an e-cigarette. There will be a data collection period of at least five days to obtain baseline information on the use of combustible cigarettes. All participants enrolled in the study will receive a JUUL e-cigarette at Visit 2 for ad libitum use. After the first week of e-cigarette use (at Visit 3), participants will be given bupropion (150 mg each morning for days 1-3, then 300 mg daily) with either zonisamide (100 mg daily) or placebo (group 1 and group 2 respectively), or placebo for both medications (group 3) in addition to continued use of the e-cigarette. At each visit, participants will receive enough study drugs (or placebos) and e-cigarettes to last until their next study visit. The combination of zonisamide and bupropion use will continue until Visit 6 (7 weeks of treatment), and e-cigarette use will continue until the end of treatment (Visit 7).
The purpose of this research is to evaluate messages that motivate older smokers to make quit attempts using evidence based smoking treatments (EBSTs). 200 participants will be recruited nationally (within the United States) primarily via social media advertisements. Participation will include up to 2 interviews by telephone and receiving flyers via mail.
Background: At present, effectively implementing smoking cessation programs in the health care system constitutes a major challenge. A unique opportunity to initiate smoking cessation focuses on smokers scheduled for surgery. These patients are not only highly motivated to quit smoking but also likely to benefit from a reduction in postoperative complications which may translate into a decrease of costs. Nevertheless, surgical patients are not routinely informed about the benefits of preoperative smoking cessation. Potential reasons for this missed opportunity may be lack of time and training of surgeons and anesthesiologists. The investigators therefore aim to analyse the impact of a preoperative high-intensity smoking cessation intervention on surgical complications up to a 90-day postoperative period in patients of various surgical disciplines. The hypothesis is that preoperative smoking cessation program improves outcomes in smokers undergoing intermediate to high-risk surgery. The primary objective is to compare complications between patients with an institutional multifaceted smoking cessation intervention starting four weeks before surgery compared to patients in the advice only group (control group) within a 90-day postoperative period. The primary endpoint is the Comprehensive Complication Index (CCI®) within 90 days of surgery. Secondary outcomes include length of hospital stay, cost of hospital stay, smoking abstinence, reduction in nicotine consumption. Methods: The present study is a single center, randomized trial with two parallel groups of smokers scheduled for surgery comparing surgery alone and surgery with preoperative smoking cessation. The investigators plan to randomize 251 patients. The primary endpoint is the Comprehensive Complication Index up to a 90-day postoperative period. The secondary endpoints include comparison of smoking abstinence, quality of life, mental health, length of stay, costs of care and difference in hospital reimbursement between the two groups. Discussion: The hypothesis is that preoperative smoking cessation program improves outcomes in smokers undergoing surgery.
The overall objectives of this research proposal, are to (a) create a smartphone application for smoking cessation (i.e., HealthyCells), which will be achieved by integrating two pre-existing evidence-based smartphone interventions, (b) create culturally tailored treatment content (i.e., messages, images, and videos) for African American smokers, and (c) evaluate the feasibility of HealthyCells at addressing smoking and sedentary behavior among African Americans. A pilot sample of African American smokers (N = 15) will briefly use the HealthyCells app and provide critical feedback through semi-structured interviews to refine the smartphone intervention. Once the HealthyCells app is refined, African Americans (N = 30) who are interested in quitting smoking will use the app during a scheduled quit attempt. Starting on the scheduled quit date, HealthyCells will prompt participants to complete twice-daily remote smoking status assessments to earn rewards for abstinence. The app will deliver real-time messages telling participants to stand up and move around during prolonged bouts of sedentary behavior (i.e., ≥ 30 minutes of uninterrupted time spent in a sitting, reclining, or lying posture). Participants will also have on-demand access to culturally tailored information and strategies for remaining abstinent and reducing sedentary behavior within the HealthyCells app. The primary outcomes will be biochemically confirmed point prevalence smoking abstinence at 8 weeks post-quit date, and the difference in sedentary time 7 consecutive days before quitting compared with 7 consecutive days at 8-weeks post-quit, as measured by a research-grade accelerometer.
This study is planned to determine the effect of online motivational interviews based on the transtheoretic model on the prediction of smoking cessation success, self-efficacy levels and smoking cessation behavior of pregnant women.It is an experimental research.
Smoking cessation is a public health priority. Tobacco is directly responsible for 75,000 deaths per year in France. Without help, less than 5% of smokers are still abstinent after 12 months of smoking cessation. The use of nicotine replacement therapy only increases the chances of successful smoking cessation by 2-3%. Brain imaging research shows that the dorsolateral prefrontal cortex (DLPC) is involved in tobacco addiction. Disorders induced in the DLPC cause an irrepressible urge to smoke (craving) and largely explain relapse during smoking cessation. Transcranial Magnetic Stimulation (TMS) could be a promising tool in the quest for an effective approach to smoking cessation. This technique is used for direct stimulation of the DLPC via a magnetic coil in order to reduce the cortical activity of the DLPC and thus to reduce cravings. A first randomized controlled study using TMS was conducted at the University Hospital of Dijon in highly addicted smokers who had failed to quit with the usual withdrawal strategies. In this study, entitled Tabacstim 1, we found that the combination of nicotine substitutes (to reduce physical withdrawal symptoms) with 10 "attack" sessions of TMS (to reduce cravings) increased the rate of abstinence during the first 2 weeks of withdrawal (% abstinence = 88. However, in this study, the therapeutic effect of the nicotine-SMT combination was not prolonged once the stimuli were stopped. At 6 and 12 weeks from the start of withdrawal, abstinence rates in the active SMT and placebo SMT groups were no longer significantly different. We therefore initiated a new study, entitled Tabacstim 2, to add maintenance brain stimulation to the Tabacstim 1 protocol after the "attack" sessions (this therapeutic scheme is classically used in the treatment of depression with TMS). This study started in July 2020 and will end very soon (71 inclusions completed out of the 78 expected). In both Tabacstim 1 and Tabacstim 2, the stimulations are delivered at low frequency (1 Hz) on the right DLPC. However, a recently published meta-analysis shows that, in addictions, stimulations delivered at a high frequency (10 Hz) on the left DLPC appear to be more effective in reducing craving. But above all, another meta-analysis carried out by our team (in progress of publication), finds that excitatory stimulations (such as 10 Hz rTMS) on the left DLPC are very effective in maintaining smoking abstinence in the medium term (3 and 6 months), which does not seem to be the case for inhibitory stimulations (such as 1 Hz rTMS). We therefore wish to carry out the Tabacstim 3 study, which only differs from Tabacstim 2 in two stimulation parameters: 10 Hz stimulations on the left DLPC instead of 1 Hz stimulations on the right DLPC. We therefore propose in Tabacstim 3 to use excitatory stimulations on the left instead of inhibitory stimulations on the right. Tabacstim 3 could be more effective for prolonged smoking cessation than the 2 previous protocols.