180 young adult vapers who are not current smokers will participate in a baseline functional magnetic resonance imaging (fMRI) experiment, prospectively linked to a 1-year randomized controlled trial. Baseline fMRI tasks will probe critical neurocognitive markers with high potential to account for individual differences in nicotine use prognosis and responsiveness to anti-vaping public service announcements (PSAs). Participants will be assigned randomly to a survey-only control condition, or one of two intervention orders, Regular PSA then Flavor PSA, and Flavor PSA then Regular PSA (n=60 each) in a 1-year counterbalanced crossover design. Every week intervention groups will receive anti-vaping PSAs either do not specifically address harms associated with vaping flavors (regular PSAs) or PSAs with a theme focusing on the harms of flavored vape products (flavor PSAs). Participants of the intervention groups will switch PSA exposure condition after 6 months. Their evaluations of the PSAs will be assessed with brief weekly online surveys. The links to the weekly online surveys will be sent via e-mail and text which allow them to access the surveys using any device with an internet browser. During the survey, the PSA of that week will first be displayed to PSA groups (n=120), followed by a query to provide message evaluation. Afterward, the survey questions will also assess their e-cigarette, cigarette, other tobacco use, and nicotine dependence, during the past week. The control group (n=60) will complete the surveys without viewing PSAs. In-person assessments at 3, 6, 9, and 12 months will biochemically confirm nicotine exposure.
Message Exposure (Sequence: Regular Then Flavor), Message Exposure (Sequence: Flavor Then Regular), No Message Exposure (Control Condition)
180 young adult vapers who are not current smokers will participate in a baseline functional magnetic resonance imaging (fMRI) experiment, prospectively linked to a 1-year randomized controlled trial. Baseline fMRI tasks will probe critical neurocognitive markers with high potential to account for individual differences in nicotine use prognosis and responsiveness to anti-vaping public service announcements (PSAs). Participants will be assigned randomly to a survey-only control condition, or one of two intervention orders, Regular PSA then Flavor PSA, and Flavor PSA then Regular PSA (n=60 each) in a 1-year counterbalanced crossover design. Every week intervention groups will receive anti-vaping PSAs either do not specifically address harms associated with vaping flavors (regular PSAs) or PSAs with a theme focusing on the harms of flavored vape products (flavor PSAs). Participants of the intervention groups will switch PSA exposure condition after 6 months. Their evaluations of the PSAs will be assessed with brief weekly online surveys. The links to the weekly online surveys will be sent via e-mail and text which allow them to access the surveys using any device with an internet browser. During the survey, the PSA of that week will first be displayed to PSA groups (n=120), followed by a query to provide message evaluation. Afterward, the survey questions will also assess their e-cigarette, cigarette, other tobacco use, and nicotine dependence, during the past week. The control group (n=60) will complete the surveys without viewing PSAs. In-person assessments at 3, 6, 9, and 12 months will biochemically confirm nicotine exposure.
Neuroimaging Approaches to Improve Prediction of Smoking Initiation and Nicotine Use Escalation Among Young Adult Electronic Nicotine Delivery Systems Users
-
UGA Bio-imaging Research Center, Athens, Georgia, United States, 30602
Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.
For general information about clinical research, read Learn About Studies.
18 Years to 25 Years
ALL
Yes
University of Georgia,
2025-07-31