Published on in Vol 5, No 7 (2017): July

A Bit of Fit: Minimalist Intervention in Adolescents Based on a Physical Activity Tracker

A Bit of Fit: Minimalist Intervention in Adolescents Based on a Physical Activity Tracker

A Bit of Fit: Minimalist Intervention in Adolescents Based on a Physical Activity Tracker

Journals

  1. Ridgers N, Timperio A, Brown H, Ball K, Macfarlane S, Lai S, Richards K, Mackintosh K, McNarry M, Foster M, Salmon J. Wearable Activity Tracker Use Among Australian Adolescents: Usability and Acceptability Study. JMIR mHealth and uHealth 2018;6(4):e86 View
  2. Blake M, Sénéchal M, Comeau M, Smith S, Bouchard D. The Impact of Exercise Intensity Feedback Using Technology for Children During Active Play: Pilot Study. JMIR Pediatrics and Parenting 2018;1(2):e11327 View
  3. Drehlich M, Naraine M, Rowe K, Lai S, Salmon J, Brown H, Koorts H, Macfarlane S, Ridgers N. Using the Technology Acceptance Model to Explore Adolescents’ Perspectives on Combining Technologies for Physical Activity Promotion Within an Intervention: Usability Study. Journal of Medical Internet Research 2020;22(3):e15552 View
  4. Henriksen A, Haugen Mikalsen M, Woldaregay A, Muzny M, Hartvigsen G, Hopstock L, Grimsgaard S. Using Fitness Trackers and Smartwatches to Measure Physical Activity in Research: Analysis of Consumer Wrist-Worn Wearables. Journal of Medical Internet Research 2018;20(3):e110 View
  5. Kim Y, Lochbaum M. Comparison of Polar Active Watch and Waist- and Wrist-Worn ActiGraph Accelerometers for Measuring Children’s Physical Activity Levels during Unstructured Afterschool Programs. International Journal of Environmental Research and Public Health 2018;15(10):2268 View
  6. Lee A, Chavez S, Bian J, Thompson L, Gurka M, Williamson V, Modave F. Efficacy and Effectiveness of Mobile Health Technologies for Facilitating Physical Activity in Adolescents: Scoping Review. JMIR mHealth and uHealth 2019;7(2):e11847 View
  7. Ng K, Kokko S, Tammelin T, Kallio J, Belton S, O'Brien W, Murphy M, Powell C, Woods C. Clusters of Adolescent Physical Activity Tracker Patterns and Their Associations With Physical Activity Behaviors in Finland and Ireland: Cross-Sectional Study. Journal of Medical Internet Research 2020;22(9):e18509 View
  8. Crossley S, McNarry M, Eslambolchilar P, Knowles Z, Mackintosh K. The Tangibility of Personalized 3D-Printed Feedback May Enhance Youths’ Physical Activity Awareness, Goal Setting, and Motivation: Intervention Study. Journal of Medical Internet Research 2019;21(6):e12067 View
  9. LaMunion S, Blythe A, Hibbing P, Kaplan A, Clendenin B, Crouter S. Use of consumer monitors for estimating energy expenditure in youth. Applied Physiology, Nutrition, and Metabolism 2020;45(2):161 View
  10. Díaz-Quesada G, Puga-González E, Muñoz-Galiano I. Efecto de la utilización de pulseras inteligentes para el incremento de la actividad física en adolescentes de un entorno rural: Estudio Piloto. JUMP 2021;(3):10 View
  11. Ridgers N, Timperio A, Ball K, Lai S, Brown H, Macfarlane S, Salmon J. Effect of commercial wearables and digital behaviour change resources on the physical activity of adolescents attending schools in socio-economically disadvantaged areas: the RAW-PA cluster-randomised controlled trial. International Journal of Behavioral Nutrition and Physical Activity 2021;18(1) View
  12. St Fleur R, St George S, Leite R, Kobayashi M, Agosto Y, Jake-Schoffman D. Use of Fitbit Devices in Physical Activity Intervention Studies Across the Life Course: Narrative Review. JMIR mHealth and uHealth 2021;9(5):e23411 View
  13. Mooses K, Taveter K. Agent-Oriented Goal Models in Developing Information Systems Supporting Physical Activity Among Adolescents: Literature Review and Expert Interviews. Journal of Medical Internet Research 2021;23(5):e24810 View
  14. Creaser A, Clemes S, Costa S, Hall J, Ridgers N, Barber S, Bingham D. The Acceptability, Feasibility, and Effectiveness of Wearable Activity Trackers for Increasing Physical Activity in Children and Adolescents: A Systematic Review. International Journal of Environmental Research and Public Health 2021;18(12):6211 View
  15. Domin A, Spruijt-Metz D, Theisen D, Ouzzahra Y, Vögele C. Smartphone-Based Interventions for Physical Activity Promotion: Scoping Review of the Evidence Over the Last 10 Years. JMIR mHealth and uHealth 2021;9(7):e24308 View
  16. Black M, Brunet J. A Wearable Activity Tracker Intervention With and Without Weekly Behavioral Support Emails to Promote Physical Activity Among Women Who Are Overweight or Obese: Randomized Controlled Trial. JMIR mHealth and uHealth 2021;9(12):e28128 View
  17. Becerra-Fernández C. Effect of gamification-based programs in the school physical education setting: a systematic review protocol. Journal of Physical Education and Human Movement 2022;4(2):32 View
  18. Creaser A, Hall J, Costa S, Bingham D, Clemes S. Exploring Families’ Acceptance of Wearable Activity Trackers: A Mixed-Methods Study. International Journal of Environmental Research and Public Health 2022;19(6):3472 View
  19. Black M, Brunet J. Exploring the effect of an eHealth intervention on women's physical activity: Design and rationale for a randomized controlled trial. DIGITAL HEALTH 2022;8:205520762210931 View
  20. Baumann H, Fiedler J, Wunsch K, Woll A, Wollesen B. mHealth Interventions to Reduce Physical Inactivity and Sedentary Behavior in Children and Adolescents: Systematic Review and Meta-analysis of Randomized Controlled Trials. JMIR mHealth and uHealth 2022;10(5):e35920 View
  21. Casado-Robles C, Viciana J, Guijarro-Romero S, Mayorga-Vega D. Effects of Consumer-Wearable Activity Tracker-Based Programs on Objectively Measured Daily Physical Activity and Sedentary Behavior Among School-Aged Children: A Systematic Review and Meta-analysis. Sports Medicine - Open 2022;8(1) View
  22. Domin A, Uslu A, Schulz A, Ouzzahra Y, Vögele C. A Theory-Informed, Personalized mHealth Intervention for Adolescents (Mobile App for Physical Activity): Development and Pilot Study. JMIR Formative Research 2022;6(6):e35118 View
  23. Welch V, Wy T, Ligezka A, Hassett L, Croarkin P, Athreya A, Romanowicz M. Use of Mobile and Wearable Artificial Intelligence in Child and Adolescent Psychiatry: Scoping Review. Journal of Medical Internet Research 2022;24(3):e33560 View
  24. Jiang A, Al-Dajani N, King C, Hong V, Koo H, Czyz E. Acceptability and feasibility of ecological momentary assessment with augmentation of passive sensor data in young adults at high risk for suicide. Psychiatry Research 2023;326:115347 View
  25. Danković G, Stantić T, Herodek R, Stamenković S, Stojiljković N, Jelenković B, Sporiš G. Effects of Commercially Available Wearable Devices on Physical Activity Promotion and Health in Children and Adolescents: Systematic Review. Applied Sciences 2023;13(12):7194 View
  26. Yang J, Casey A, Cale L. The Influence of Healthy Lifestyle Technologies on Young People’s Physical Activity Participation and Health Learning: A Systematic Review. Quest 2024;76(1):72 View
  27. AlSayegh L, Al-Mustafa M, Alali A, Farhan M, AlShamlan N, AlOmar R. Association between fitness tracker use, physical activity, and general health of adolescents in Eastern Province of Saudi Arabia. Journal of Family and Community Medicine 2023;30(4):251 View
  28. Wang J, Zhu Z, Zhang S, Fan J, Jin Y, Gao Z, Chen W, Li X. Effectiveness of mHealth App-Based Interventions for Increasing Physical Activity and Improving Physical Fitness in Children and Adolescents: Systematic Review and Meta-analysis (Preprint). JMIR mHealth and uHealth 2023 View
  29. Bicki A, Seth D, McCulloch C, Lin F, Ku E. Use of activity trackers to improve blood pressure in young people at risk for cardiovascular disease: a pilot randomized controlled trial. Pediatric Nephrology 2024 View

Books/Policy Documents

  1. Kettunen E, Makkonen M, Kari T, Critchley W. Optimizing Health Monitoring Systems With Wireless Technology. View
  2. Ridgers N, Drehlich M. Digital Health. View
  3. Ulmer T, Baldauf M. Human-Computer Interaction. User Experience and Behavior. View