Breast Cancer Survivors’ Experiences With an Activity Tracker Integrated Into a Supervised Exercise Program: Qualitative Study

Journals

1. Chia G, Anderson A, McLean L. Behavior Change Techniques Incorporated in Fitness Trackers: Content Analysis. JMIR mHealth and uHealth 2019;7(7):e12768 View
2. Singh B, Spence R, Sandler C, Tanner J, Hayes S. Feasibility and effect of a physical activity counselling session with or without provision of an activity tracker on maintenance of physical activity in women with breast cancer — A randomised controlled trial. Journal of Science and Medicine in Sport 2020;23(3):283 View
3. Coughlin S, Caplan L, Stone R. Use of consumer wearable devices to promote physical activity among breast, prostate, and colorectal cancer survivors: a review of health intervention studies. Journal of Cancer Survivorship 2020;14(3):386 View
4. Delrieu L, Anota A, Trédan O, Freyssenet D, Maire A, Canada B, Fournier B, Febvey-Combes O, Pilleul F, Bouhamama A, Caux C, Joly F, Fervers B, Pialoux V, Pérol D, Pérol O. Design and methods of a national, multicenter, randomized and controlled trial to assess the efficacy of a physical activity program to improve health-related quality of life and reduce fatigue in women with metastatic breast cancer: ABLE02 trial. BMC Cancer 2020;20(1) View
5. Rawlings G, Williams R, Clarke D, English C, Fitzsimons C, Holloway I, Lawton R, Mead G, Patel A, Forster A. Exploring adults’ experiences of sedentary behaviour and participation in non-workplace interventions designed to reduce sedentary behaviour: a thematic synthesis of qualitative studies. BMC Public Health 2019;19(1) View
6. Power J, Tate D, Valle C. Experiences of African American Breast Cancer Survivors Using Digital Scales and Activity Trackers in a Weight Gain Prevention Intervention: Qualitative Study. JMIR mHealth and uHealth 2020;8(6):e16059 View
7. Blair C, Harding E, Wiggins C, Kang H, Schwartz M, Tarnower A, Du R, Kinney A. A Home-Based Mobile Health Intervention to Replace Sedentary Time With Light Physical Activity in Older Cancer Survivors: Randomized Controlled Pilot Trial. JMIR Cancer 2021;7(2):e18819 View
8. Nezami B, Valle C, Nulty A, Espeland M, Wing R, Tate D. Predictors and Outcomes of Digital Weighing and Activity Tracking Lapses Among Young Adults During Weight Gain Prevention. Obesity 2021;29(4):698 View
9. De La Torre S, Spruijt-Metz D, Farias A. Associations Among Wearable Activity Tracker Use, Exercise Motivation, and Physical Activity in a Cohort of Cancer Survivors: Secondary Data Analysis of the Health Information National Trends Survey. JMIR Cancer 2021;7(2):e24828 View
10. Parimbelli E, Wilk S, Cornet R, Sniatala P, Sniatala K, Glaser S, Fraterman I, Boekhout A, Ottaviano M, Peleg M. A review of AI and Data Science support for cancer management. Artificial Intelligence in Medicine 2021;117:102111 View
11. Di Blasio A, Morano T, Lancia F, Viscioni G, Di Iorio A, Grossi S, Cianchetti E, Cugusi L, Gobbo S, Bergamin M, D’Eugenio A, Masini L, Rinaldi M, Scognamiglio M, Vamvakis A, Napolitano G. Effects of Activity Tracker-Based Counselling and Live-Web Exercise on Breast Cancer Survivors during Italy COVID-19 Lockdown. Journal of Functional Morphology and Kinesiology 2021;6(2):50 View
12. Ferrante J, Lulla A, Williamson J, Devine K, Ohman-Strickland P, Bandera E. Patterns of Fitbit Use and Activity Levels Among African American Breast Cancer Survivors During an eHealth Weight Loss Randomized Controlled Trial. American Journal of Health Promotion 2022;36(1):94 View
13. Di Blasio A, Morano T, Lancia F, Viscioni G, Di Iorio A, Grossi S, Cianchetti E, Pippi R, Gobbo S, Bergamin M, D’eugenio A, Masini L, Rinaldi M, Grassadonia A, Vamvakis A, Napolitano G. Effects of activity tracker-based counselling and live-web exercise on breast cancer survivors’ sleep and waking time during Italy’s COVID-19 lockdown. Home Health Care Services Quarterly 2022;41(1):1 View
14. Huang Y, Upadhyay U, Dhar E, Kuo L, Syed-Abdul S. A Scoping Review to Assess Adherence to and Clinical Outcomes of Wearable Devices in the Cancer Population. Cancers 2022;14(18):4437 View
15. De La Torre S, Spruijt-Metz D, Farias A. Survivors’ health competence mediates the association between wearable activity tracker use and self-rated health: HINTS analysis. Journal of Cancer Survivorship 2022;16(6):1268 View
16. Hartman S, Chen R, Tam R, Narayan H, Natarajan L, Liu L. Fitbit Use and Activity Levels From Intervention to 2 Years After: Secondary Analysis of a Randomized Controlled Trial. JMIR mHealth and uHealth 2022;10(6):e37086 View
17. Tjon A Joe S, Verschure-Dorsman S, Wilthagen E, Stuiver M. Barriers and facilitators for weight management interventions in breast cancer patients: a systematic review of qualitative studies. International Journal of Qualitative Studies on Health and Well-being 2023;18(1) View
18. Szeto K, Arnold J, Maher C. The Wearable Activity Tracker Checklist for Healthcare (WATCH): a 12-point guide for the implementation of wearable activity trackers in healthcare. International Journal of Behavioral Nutrition and Physical Activity 2024;21(1) View
19. Szeto K, Arnold J, Horsfall E, Sarro M, Hewitt A, Maher C. Establishing a Consensus-Based Framework for the Use of Wearable Activity Trackers in Health Care: Delphi Study. JMIR mHealth and uHealth 2024;12:e55254 View