TY - JOUR
T1 - StandUPTV
T2 - Preparation and optimization phases of a mHealth intervention to reduce sedentary screen time in adults
AU - Keadle, Sarah
AU - Hasanaj, Kristina
AU - Leonard-Corzo, Krista
AU - Tolas, Alexander
AU - Crosley-Lyons, Rachel
AU - Pfisterer, Bjorn
AU - Legato, Maria
AU - Fernandez, Arlene
AU - Lowell, Emily
AU - Hollingshead, Kevin
AU - Yu, Tsung Yen
AU - Phelan, Suzanne
AU - Phillips, Siobhan M.
AU - Watson, Nicole
AU - Hagobian, Todd
AU - Guastaferro, Kate
AU - Buman, Matthew P.
N1 - Publisher Copyright:
© 2023 Elsevier Inc.
PY - 2024/1
Y1 - 2024/1
N2 - Recreational sedentary screen time (rSST) is the most prevalent sedentary behavior for adults outside of work, school, and sleep, and is strongly linked to poor health. StandUPTV is a mHealth trial that uses the Multiphase Optimization Strategy (MOST) framework to develop and evaluate the efficacy of three theory-based strategies for reducing rSST among adults. This paper describes the preparation and optimization phases of StandUPTV within the MOST framework. We identified three candidate components based on previous literature: (a) rSST electronic lockout (LOCKOUT), which restricts rSST through electronic means; (b) adaptive prompts (TEXT), which provides adaptive prompts based on rSST behaviors; and (c) earning rSST through increased moderate-vigorous physical activity (MVPA) participation (EARN). We also describe the mHealth iterative design process and the selection of an optimization objective. Finally, we describe the protocol of the optimization randomized controlled trial using a 23 factorial experimental design. We will enroll 240 individuals aged 23–64 y who engage in >3 h/day of rSST. All participants will receive a target to reduce rSST by 50% and be randomized to one of 8 combinations representing all components and component levels: LOCKOUT (yes vs. no), TEXT (yes vs. no), and EARN (yes vs. no). Results will support the selection of the components for the intervention package that meet the optimization objective and are acceptable to participants. The optimized intervention will be tested in a future evaluation randomized trial to examine reductions in rSST on health outcomes among adults.
AB - Recreational sedentary screen time (rSST) is the most prevalent sedentary behavior for adults outside of work, school, and sleep, and is strongly linked to poor health. StandUPTV is a mHealth trial that uses the Multiphase Optimization Strategy (MOST) framework to develop and evaluate the efficacy of three theory-based strategies for reducing rSST among adults. This paper describes the preparation and optimization phases of StandUPTV within the MOST framework. We identified three candidate components based on previous literature: (a) rSST electronic lockout (LOCKOUT), which restricts rSST through electronic means; (b) adaptive prompts (TEXT), which provides adaptive prompts based on rSST behaviors; and (c) earning rSST through increased moderate-vigorous physical activity (MVPA) participation (EARN). We also describe the mHealth iterative design process and the selection of an optimization objective. Finally, we describe the protocol of the optimization randomized controlled trial using a 23 factorial experimental design. We will enroll 240 individuals aged 23–64 y who engage in >3 h/day of rSST. All participants will receive a target to reduce rSST by 50% and be randomized to one of 8 combinations representing all components and component levels: LOCKOUT (yes vs. no), TEXT (yes vs. no), and EARN (yes vs. no). Results will support the selection of the components for the intervention package that meet the optimization objective and are acceptable to participants. The optimized intervention will be tested in a future evaluation randomized trial to examine reductions in rSST on health outcomes among adults.
KW - Multiphase optimization trial
KW - Physical activity
KW - Sedentary behavior
KW - Television viewing
KW - mHealth application
UR - http://www.scopus.com/inward/record.url?scp=85178619819&partnerID=8YFLogxK
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U2 - 10.1016/j.cct.2023.107402
DO - 10.1016/j.cct.2023.107402
M3 - Article
C2 - 38000452
AN - SCOPUS:85178619819
SN - 1551-7144
VL - 136
JO - Contemporary Clinical Trials
JF - Contemporary Clinical Trials
M1 - 107402
ER -