19 Clinical Trials for Various Conditions
The study's primary aim is to test the hypothesis that an intervention that integrates low to moderate physical activity (walking) with evidence-based smoking cessation counseling (LMPA) will result is greater reductions in quit-day reactivity to smoking cues (a behavioral predictor of smoking relapse) as compared to standard care smoking cessation counseling (control group) in a sample of low-income sedentary male and female smokers. The study will also test the hypothesis that the participants randomized to the LMPA intervention will have greater quit rates at one-week and one-month post quit day follow ups.
This trial aims to determine whether dopamine D3 receptors are elevated in smokers versus nonsmokers and whether correlations exist between D3 receptor binding potential (BP) and functional MRI (fMRI) reactivity to smoking cues, which has been associated with smoking relapse vulnerability. Neuroimaging measures of D3 BP and smoking cue fMRI reactivity will be collected concurrently in otherwise healthy nicotine-dependent smokers and age-matched nonsmokers using a 3 Tesla MRI scanner configured to conduct fMRI and Positron Emission Tomography (PET). We will measure D3 receptor BP using radiolabeled \[11C\]-(+)-PHNO, which has a relatively higher affinity for D3 versus D2 receptors. We hypothesize that D3 BP will be elevated in smokers versus nonsmokers and that in smokers, there will be a positive correlation between smoking cue fMRI reactivity and D3 BP.
Background: - Researchers have been studying behavioral components of nicotine addiction by looking at how drugs have a reinforcing effect, connecting the stimulation provided by the drug (nicotine) to the behavior that produces it (smoking). Based on previous studies, researchers are interested in learning more about how nicotine affects current smokers' responses to psychological tests and smoking-related cues, and in studying whether certain kinds of genetic background may affect smokers' responses to these kinds of studies. Objectives: * To compare the effect of nicotine versus denicotinized cigarettes during specific psychological tests. * To compare the effects of smoking cues versus neutral cues on craving, mood, and autonomic response. * To study the effect of genes on nicotine reinforcement and smoking-cue reactivity. Eligibility: - Individuals between 18 and 64 years of age who are current smokers (at least 10 cigarettes per day for at least 1 year) and are not currently interested in reducing their smoking or seeking treatment for tobacco dependence. Design: * Pilot session: * Participants will practice smoking using the measuring equipment that will be used in the study. * After successful practice, participants will read or listen to music for 1 hour, during which they are not allowed to smoke. * After the 1-hour period, participants will sample study cigarettes that have different levels of nicotine, and will be asked to guess whether the cigarettes are normal study cigarettes or denicotinized cigarettes. * Baseline session: * Blood, urine, and breath samples will be taken at the start of the session. * Participants will smoke part of an initial cigarette, and then will read or listen to music for 1 hour, during which they are not allowed to smoke. * After the 1-hour period, participants will give another breath sample and will complete questionnaires about mood and concentration levels. * Trial sessions: * Participants will smoke study cigarettes, and will be asked to either respond to questions about perceived nicotine levels in the cigarettes or press a lever for the chance to be rewarded with additional puffs of the cigarette. After the session, participants will give another breath sample and will complete questionnaires about mood and concentration levels. * Participants will also participate in cue-reactivity sessions to test the body's physiological response to smoking cues (a pack of cigarettes) and neutral cues (a pack of unsharpened pencils). After the session, participants will complete questionnaires on mood and concentration 15, 30, 45, and 60 minutes after the session. * At the conclusion of the last experimental session, participants will discuss the study with researchers, and may receive a referral list of smoking treatment programs.
This is a brief smoking cessation trial in women, comparing transdermal nicotine patch (TNP) versus varenicline.
The purpose of this study is to determine whether electronic cigarettes can reduce reactivity to smoking-related cues.
The purpose of this study was to find out how varenicline works to help people quit smoking. Varenicline, also known as Chantix™, is an U.S. Food and Drug Administration (FDA) approved medication that has been shown to help people quit smoking. This study was trying to evaluate whether varenicline would change the response to smoking and the desire for cigarettes when compared to an inactive placebo control. This was not a quit smoking treatment study, and participants were not asked or required to stop smoking while in this study.
This study will randomize 64 non-treatment seeking individuals who smoke cigarettes daily in a double-blind, placebo-controlled laboratory study testing the effects of cytisinicline on the neural substrates of cigarette cue reactivity.
This study is designed to investigate the effects of a beta-adrenergic antagonist (Propranolol; 40 mg IR) and nicotine patch (14 mg) administered alone and in combination on neurobiological and behavioral responses to smoking cues in ongoing cigarette smokers. This is a basic experimental study in humans and participants will not take these medications for an extended period or make a cessation attempt as part of their involvement in this research project.
The central objective of this project is to obtain proof-of-concept data demonstrating the effects of propranolol (a beta-adrenergic antagonist) on neurobiological responses to personal smoking environments and behavioral responses in a laboratory smoking behavior task. Human cigarette smokers (N = 50) will take photographs of locations where they do and do not smoke cigarettes. They will then be randomly assigned to receive either propranolol (40 mg) or placebo prior to completing: A) An MRI session assessing neural responses to personal smoking/non-smoking environments, standard smoking/non-smoking environments and proximal smoking/non-smoking cues; and B) A laboratory session examining smoking behavior in response to environmental cues.
The overall purpose of this pilot study is to examine effects of Hatha yoga and cardiovascular exercise on craving, mood, cue reactivity, and smoking behavior. Our preliminary study indicated that a single session of either form of activity intervention improved mood, and the yoga intervention appeared to decrease cravings to smoke. The proposed study will extend this preliminary research in several ways.
This study is ancillary. Participants will be recruited as part of a separate clinical trial on effects of two intensive behavioral training programs that evaluates feasibility and efficacy of a behavioral treatment that includes mindfulness techniques (MT) in comparison to traditional behavioral therapy (CBT) for smoking cessation. The investigators propose to compare the effect of MT to that of traditional CBT on a physiological marker of stress, salivary cortisol concentration, and physiological responses to smoking cues in tobacco smokers. The investigators will use electrophysiological reactivity to smoking cues in the form of audio recordings of personalized scripts describing the scenarios associated with the strongest urges to smoke that will provide a physiological validation to a behavioral intervention. The investigators will also explore correlations between these biological markers and self report of stress, craving and negative affect to supplement self report and behavioral outcome measures with biological and physiological markers to represent improvement attributed to the intervention.
The objectives of this proposal are to examine the role of context in a virtual reality (VR) environment and to explore the extent to which cues (i.e., contextual cues or explicit smoking cues) influence craving and physiological arousal within VR. The current study seeks to determine whether smokers, placed in the context of a VR convenience store devoid of explicit smoking cues, will experience less craving and physiological arousal, compared to exposure to the same VR environment containing explicit smoking cues. This important line of inquiry will help clarify the influence of environmental contexts that may contribute to the overall reactivity effects (e.g., craving, arousal) smokers experience when confronted with cues associated with smoking.
This study investigates the degree to which shared behavioral processes underlie combustible cigarette (CC) and electronic nicotine delivery system (ENDS) use in young adult dual users of these products in both the laboratory and natural environment. The primary processes examined by this study are cue-reactivity, attentional bias, and affect. Examining these processes in the laboratory and the real world will facilitate: a) evaluating whether behavioral processes related to use and craving in controlled settings operate in similar fashion in naturalistic settings; and b) identifying the situational factors that predict or moderate these effects. This project will enroll 80 young adults who regularly use both CC and ENDS. At the start of the study, participants will provide informed consent; biological indicators and self-report measures will be collected; and participants will become enrolled in the study. Participants will then complete two laboratory sessions in a randomized order where they will be: a) exposed to either CC or ENDS cues (based on randomized order) and report their craving for these products; b) complete a computerized attentional bias assessment; and c) choose between smoking their usual brand CC or vaping their own ENDS device over ten sequential opportunities. After the conclusion of the second laboratory session, participants will install a smartphone application that will ask participants questions 5 times per day for 28 days at random intervals assessing: craving for CC and ENDS, physical and social context, affect, and attentional bias. Using the smartphone application, participants will also: a) complete a daily computerized assessment of attentional bias abbreviated from the laboratory sessions; b) report on CC and ENDS cues they experience in the natural environment; and c) report their use of CC and ENDS. A subset of participants will complete a focus group where they will be asked about real-time interventions for smoking and vaping. Laboratory hypotheses are: (1) cue exposure will elicit craving of both CC and ENDS in the laboratory and that product-specific cues will elicit stronger craving for the affiliated products; (2) visual probe effects indicating attentional bias in the laboratory will be observed for smoking and vaping images; and (3) cross-conditioning from the first hypothesis will be associated with heaviness of use of CC and ENDS and product choice. Natural environment hypotheses are: (1) presence of tobacco-related cues in the natural environment will elicit craving and use of these products; (2) reactivity to cues, attentional bias, and cross-product conditioning assessed in the laboratory will be associated with craving and use of tobacco products over and above the effects of cues in the natural environment; and (3) negative affect will strengthen these associations.
In the present study the investigators will measure the effects of nicotine and non-nicotine factors on brain function during cognitive processes that are differentially sensitive to these factors. One process-continuous working memory (CWM)-is implemented via a network of frontal and parietal brain regions and is highly dopamine dependent. Smoking cessation results in significant deficits in CWM which can persist for weeks and are reversed by resumption of nicotine administration in the form of smoking or nicotine replacement. Additionally, CWM deficits are observed during smoking of denic cigarettes. Brain function during CWM is modulated by smoking abstinence and subsequent nicotine administration and activity in the dlPFC is implicated in these effects. Collectively, these data suggest that CWM is highly sensitive to the nicotine, but not non-nicotine components of smoking. Brain function during CWM is altered by smoking abstinence and nicotine, but the effect of smoking, in the absence of nicotine, has not been evaluated. Another process-cue-reactivity (CR)-results from the repeated pairing of otherwise neutral stimuli with nicotine administration. Acute smoking cessation has not been shown to have strong effects on CR in the form of cue-provoked craving, nor has nicotine replacement been shown to have robust effects on CR. Likewise, the direct effects of smoking abstinence on brain CR have been small; though craving has been shown to modulate relations between abstinence and CR. Moreover, recent data from our lab suggest larger 'doses' of abstinence (\~ 24 hrs) may amplify brain responses to cues. The effect of smoking in the absence of nicotine, on CR has not, to our knowledge, been evaluated. Collectively, these data suggest that CR in the form of cue-induced craving is not highly sensitive to the effects of short-term smoking abstinence or nicotine. Brain CR is modulated by abstinence-induced craving and longer-term abstinence, but it is unclear whether abstinence from nicotine or non-nicotine components is responsible for these effects. In the present study, we propose to evaluate the effects of non-nicotine and nicotine factors on CWM and CR using functional magnetic resonance imaging. This method allows for the non-invasive assessment of brain function. We will also examine the role of genes in moderating and mediating the effects of nicotine and non-nicotine factors on cognitive function
This proposed research seeks to examine the behavioral and neural substrates of intranasal oxytocin compared to placebo on alcohol cue-induced alcohol and cigarette craving smokers with an alcohol use disorder (AUD). Non treatment-seeking smokers with an AUD will be recruited to participate in a between-subjects, placebo-controlled, randomized pilot functional magnetic resonance imaging (fMRI) study. Participants will undergo an fMRI scan in conjunction with an alcohol-olfactory cue-reactivity task. Secondary assessments will include alcohol and cigarette craving, alcohol and cigarette consumption, physiological measures (heart rate and blood pressure) and mood measures.
The primary aim of this project is to test the effect of exercise on acute nicotine withdrawal. Acute nicotine withdrawal is characterized by a complex array of symptoms associated with increased risk of relapse among individuals attempting smoking cessation. The available remedies do not target all aspects of withdrawal. For example, pharmacologic treatments reduce withdrawal-based craving, but have no effect on cue-related craving, altered sleep, and mood disturbances during withdrawal. Therefore, non-pharmacologic behavioral techniques with the potential to attenuate persistent withdrawal symptoms are needed. We hypothesized that exercise can be a valid non-pharmacologic strategy to improve these domains.
The growing legalization of cannabis across the U.S. is associated with increases in cannabis use, and accordingly, an increase in the number of individuals with cannabis use problems, including cannabis use disorder (CUD). While there are several medications being investigated as treatment options for CUD, none have been FDA-approved, and there is limited efficacy of traditional behavioral therapy approaches for this population. Consequently, there is a pressing need for the development of new treatments, including approaches that specifically target the brain areas associated with problematic cannabis use behaviors. Elevated attention to drug cues is one of the primary causes of relapse in heavy cannabis users. Preliminary data suggests that transcranial magnetic stimulation (TMS), a non-invasive form of brain stimulation, may be a novel brain-based tool to decrease heightened attention to drug cues in people with CUD. Building on prior data, the primary goal of this study is to evaluate the feasibility and effectiveness of TMS as a tool to decrease attention to drug cues and reduce cannabis use. This study will evaluate whether 2 weeks of rTMS can be used to decrease attentional bias to cannabis cues and reduce cannabis use in heavy cannabis users. We will recruit sixty (60) non-treatment seeking, near-daily cannabis users to receive 10 daily sessions of either real or sham (aka placebo) rTMS over a 2-week period. Participants will live on a residential research unit for 3 weeks. During the residential stay, data on cannabis use (measured using standard human laboratory measures of choice to smoke cannabis) and relevant brain activity (measured using drug cue exposure fMRI tasks) will be collected before and after the course of 10 daily rTMS sessions. We will aim to show whether real rTMS treatment reduces brain response and attentional bias to cannabis cues and reduces cannabis use levels.
The current study aims to establish proof-of-concept that neural cue-reactivity can serve as an early, objective marker of electronic cigarette (ECIG) addictive potential. Further, this study will examine the effect of flavor and nicotine concentration on the addictive potential of ECIGs to aid research informing U.S. Food and Drug Administration (FDA) flavor regulations and smoking cessation.
One hundred seventy-five eligible participants will be enrolled with aim of randomizing 60 to a double-blind, placebo-controlled trial of D-cycloserine added to cue-exposure treatment to prevent relapse to smoking. Subjects who sign an informed consent, meet inclusion criteria, and demonstrate response to cue reactivity at the screening visit, will either be: * started on approximately 3 weeks of either nicotine replacement therapy (NRT) at a dose of either 14 or 21 mg/day or varenicline titrated to 1.0 mg bid; decision of which method to use to quit smoking will be based on participant choice as well as taking into account any medical contraindications to either therapy. * evaluated to confirm abstinence from smoking. Recently abstinent participants referred by a smoking cessation clinic, PCP or self referred must have an expired air CO \< 10 ppm to confirm abstinence. Subjects who are able to demonstrate 18-24 hours of abstinence prior to the first Cue Exposure Therapy Visit (CET I) will be eligible to be randomized to two visits of study medication and cue exposure treatment, spaced five to nine days apart. Subjects will complete 2 follow-up visits at 2-4 days and four weeks after the last CET visit. The entire study involves twelve visits and will last approximately ten weeks. For recently abstinent participants referred by a smoking cessation clinic, PCP or self referred, the study involves 7 visits (screening and baseline visit will be merged into one and there is no CBT component) and will last approximately 7 weeks.