Litcius/Paper detail

mHealth to Support Outdoor Gym Resistance Training: The ecofit Effectiveness RCT

Ronald C. Plotnikoff, Anna K. Jansson, Mitch J. Duncan, Jordan J. Smith, Adrian Bauman, John Attia, David R. Lubans

2023American Journal of Preventive Medicine20 citationsDOIOpen Access PDF

Abstract

INTRODUCTION: In Australia, 45% of adults meet the aerobic recommendations, and only 9%-30% meet the resistance training guidelines. Given the lack of at-scale community-based interventions promoting resistance training, the aim of this study was to assess the impact of an innovative mHealth intervention on upper- and lower-body muscular fitness, cardiorespiratory fitness, physical activity, and social-cognitive mediators among a sample of community-dwelling adults. STUDY DESIGN: Researchers evaluated the community-based ecofit intervention using a cluster RCT from September 2019 to March 2022 in 2 regional municipalities of New South Wales, Australia. SETTING/PARTICIPANTS: Researchers recruited a sample of 245 participants (72% female, aged 53.4±13.9 years) who were randomized to the ecofit intervention group (n=122) or waitlist control (n=123) group. INTERVENTION: The intervention group received access to a smartphone application with standardized workouts tailored to 12 outdoor gym locations and an introductory session. Participants were encouraged to perform at least 2 ecofit workouts per week. MAIN OUTCOME MEASURES: Primary and secondary outcomes were assessed at baseline, 3 months, and 9 months. The coprimary muscular fitness outcomes were evaluated using the 90-degree push-up and the 60-second sit-to-stand test. Intervention effects were estimated using linear mixed models accounting for group-level clustering (participants could enroll in groups of up to 4). Statistical analysis was conducted in April 2022. RESULTS: Statistically significant improvements were observed in upper (1.4 repetitions, 95% CI=0.3, 2.6, p=0.018) and lower (2.6 repetitions, 95% CI=0.4, 4.8, p=0.020) body muscular fitness at 9 months but not at 3 months. Increases in self-reported resistance training, resistance training self-efficacy, and implementation intention for resistance training were statistically significant at 3 and 9 months. CONCLUSIONS: This study has shown that a mHealth intervention promoting resistance training using the built environment can improve muscular fitness, physical activity behavior, and related cognitions in a community sample of adults. TRIAL REGISTRATION: This trial was preregistered with the Australian and New Zealand Clinical Trial Registry (ACTRN12619000868189).

Topics & Concepts

mHealthRandomized controlled trialResistance (ecology)Training (meteorology)Resistance trainingMedicineMEDLINEPhysical therapyNursingGeographyBiologyPsychological interventionBiochemistrySurgeryMeteorologyEcologyPhysical Activity and HealthCardiovascular and exercise physiologyChildren's Physical and Motor Development