Published on in Vol 3, No 4 (2015): Oct-Dec

Use of the Fitbit to Measure Adherence to a Physical Activity Intervention Among Overweight or Obese, Postmenopausal Women:  Self-Monitoring Trajectory During 16 Weeks

Use of the Fitbit to Measure Adherence to a Physical Activity Intervention Among Overweight or Obese, Postmenopausal Women: Self-Monitoring Trajectory During 16 Weeks

Use of the Fitbit to Measure Adherence to a Physical Activity Intervention Among Overweight or Obese, Postmenopausal Women: Self-Monitoring Trajectory During 16 Weeks

Journals

  1. Hargens T, Deyarmin K, Snyder K, Mihalik A, Sharpe L. Comparison of wrist-worn and hip-worn activity monitors under free living conditions. Journal of Medical Engineering & Technology 2017;41(3):200 View
  2. Masi E, Peterman J, Kaminsky L. The Health Benefits of a Pedometer-Based 100,000 Steps/Week Physical Activity Program. Journal of Science in Sport and Exercise 2019;1(2):176 View
  3. Dooley E, Golaszewski N, Bartholomew J. Estimating Accuracy at Exercise Intensities: A Comparative Study of Self-Monitoring Heart Rate and Physical Activity Wearable Devices. JMIR mHealth and uHealth 2017;5(3):e34 View
  4. Alcántara-Aragón V, Rodrigo-Cano S, Lupianez-Barbero A, Martinez M, Martinez C, Tapia J, Iniesta J, Tenes S, Urgell E, Navarro G, Hernando M, Merino-Torres J, de Leiva A, Gonzalez C. Web Support for Weight-Loss Interventions: PREDIRCAM2 Clinical Trial Baseline Characteristics and Preliminary Results. Diabetes Technology & Therapeutics 2018;20(5):380 View
  5. Cadmus-Bertram L, Tevaarwerk A, Sesto M, Gangnon R, Van Remortel B, Date P. Building a physical activity intervention into clinical care for breast and colorectal cancer survivors in Wisconsin: a randomized controlled pilot trial. Journal of Cancer Survivorship 2019;13(4):593 View
  6. Curran M, Tierney A, Collins L, Kennedy L, McDonnell C, Jurascheck A, Sheikhi A, Walsh C, Button B, Galvin R, Casserly B, Cahalan R. Steps Ahead: optimising physical activity and health in people with cystic fibrosis: Study Protocol for a pilot randomised trial. HRB Open Research 2020;3:21 View
  7. Gualtieri L, Rosenbluth S, Phillips J. Can a Free Wearable Activity Tracker Change Behavior? The Impact of Trackers on Adults in a Physician-Led Wellness Group. JMIR Research Protocols 2016;5(4):e237 View
  8. Bender M, Santos G, Villanueva C, Arai S. Development of a Mobile Phone-Based Weight Loss Lifestyle Intervention for Filipino Americans with Type 2 Diabetes: Protocol and Early Results From the PilAm Go4Health Randomized Controlled Trial. JMIR Research Protocols 2016;5(3):e178 View
  9. Reid R, Insogna J, Carver T, Comptour A, Bewski N, Sciortino C, Andersen R. Validity and reliability of Fitbit activity monitors compared to ActiGraph GT3X+ with female adults in a free-living environment. Journal of Science and Medicine in Sport 2017;20(6):578 View
  10. Schrager J, Shayne P, Wolf S, Das S, Patzer R, White M, Heron S. Assessing the Influence of a Fitbit Physical Activity Monitor on the Exercise Practices of Emergency Medicine Residents: A Pilot Study. JMIR mHealth and uHealth 2017;5(1):e2 View
  11. Xu X, Tupy S, Robertson S, Miller A, Correll D, Tivis R, Nigg C, Bowen M. Successful adherence and retention to daily monitoring of physical activity: Lessons learned. PLOS ONE 2018;13(9):e0199838 View
  12. Paxton R, Forster J, Miller M, Gerron K, Stevens-Lapsley J, Christiansen C. A Feasibility Study for Improved Physical Activity After Total Knee Arthroplasty. Journal of Aging and Physical Activity 2018;26(1):7 View
  13. Vinciguerra S, Vinciguerra M. Smart devices and healthy aging. Nutrition and Healthy Aging 2019;5(1):13 View
  14. Pudkasam S, Polman R, Pitcher M, Fisher M, Chinlumprasert N, Stojanovska L, Apostolopoulos V. Physical activity and breast cancer survivors: Importance of adherence, motivational interviewing and psychological health. Maturitas 2018;116:66 View
  15. MCNEIL J, BRENNER D, STONE C, O’REILLY R, RUAN Y, VALLANCE J, COURNEYA K, THORPE K, KLEIN D, FRIEDENREICH C. Activity Tracker to Prescribe Various Exercise Intensities in Breast Cancer Survivors. Medicine & Science in Sports & Exercise 2019;51(5):930 View
  16. Lewis B, Napolitano M, Buman M, Williams D, Nigg C. Future directions in physical activity intervention research: expanding our focus to sedentary behaviors, technology, and dissemination. Journal of Behavioral Medicine 2017;40(1):112 View
  17. Zhou M, Fukuoka Y, Goldberg K, Vittinghoff E, Aswani A. Applying machine learning to predict future adherence to physical activity programs. BMC Medical Informatics and Decision Making 2019;19(1) View
  18. Pudkasam S, Pitcher M, Fisher M, O’Connor A, Chinlumprasert N, Stojanovska L, Polman R, Apostolopoulos V. The PAPHIO study protocol: a randomised controlled trial with a 2 x 2 crossover design of physical activity adherence, psychological health and immunological outcomes in breast cancer survivors. BMC Public Health 2020;20(1) View
  19. Lee S, Ha Y, Jung M, Yang S, Kang W. The Effects of a Mobile Wellness Intervention with Fitbit Use and Goal Setting for Workers. Telemedicine and e-Health 2019;25(11):1115 View
  20. Elmagboul N, Coburn B, Foster J, Mudano A, Melnick J, Bergman D, Yang S, Chen L, Filby C, Mikuls T, Curtis J, Saag K. Physical activity measured using wearable activity tracking devices associated with gout flares. Arthritis Research & Therapy 2020;22(1) View
  21. McCallum C, Rooksby J, Gray C. Evaluating the Impact of Physical Activity Apps and Wearables: Interdisciplinary Review. JMIR mHealth and uHealth 2018;6(3):e58 View
  22. Kerrigan S, Forman E, Patel M, Williams D, Zhang F, Crosby R, Butryn M. Evaluating the Feasibility, Acceptability, and Effects of Deposit Contracts With and Without Daily Feedback to Promote Physical Activity. Journal of Physical Activity and Health 2020;17(1):29 View
  23. Reed J, Cole C, Ziss M, Tulloch H, Brunet J, Sherrard H, Reid R, Pipe A. The Impact of Web-Based Feedback on Physical Activity and Cardiovascular Health of Nurses Working in a Cardiovascular Setting: A Randomized Trial. Frontiers in Physiology 2018;9 View
  24. Simons D, De Bourdeaudhuij I, Clarys P, De Cocker K, Vandelanotte C, Deforche B. Effect and Process Evaluation of a Smartphone App to Promote an Active Lifestyle in Lower Educated Working Young Adults: Cluster Randomized Controlled Trial. JMIR mHealth and uHealth 2018;6(8):e10003 View
  25. Cadmus-Bertram L, Gorzelitz J, Dorn D, Malecki K. Understanding the physical activity needs and interests of inactive and active rural women: a cross-sectional study of barriers, opportunities, and intervention preferences. Journal of Behavioral Medicine 2020;43(4):638 View
  26. Reed J, Estabrooks P, Pozehl B, Heelan K, Wichman C. Effectiveness of the 5A’s Model for Changing Physical Activity Behaviors in Rural Adults Recruited From Primary Care Clinics. Journal of Physical Activity and Health 2019;16(12):1138 View
  27. Cotie L, Prince S, Elliott C, Ziss M, McDonnell L, Mullen K, Hiremath S, Pipe A, Reid R, Reed J. The effectiveness of eHealth interventions on physical activity and measures of obesity among working-age women: a systematic review and meta-analysis. Obesity Reviews 2018;19(10):1340 View
  28. Upasham S, Tanak A, Jagannath B, Prasad S. Development of ultra-low volume, multi-bio fluid, cortisol sensing platform. Scientific Reports 2018;8(1) View
  29. Ryu J, Park J. Validation of Wearable Devices to Measure Energy Consumption. The Asian Journal of Kinesiology 2020;22(1):33 View
  30. Simons D, De Bourdeaudhuij I, Clarys P, De Cocker K, Vandelanotte C, Deforche B. A Smartphone App to Promote an Active Lifestyle in Lower-Educated Working Young Adults: Development, Usability, Acceptability, and Feasibility Study. JMIR mHealth and uHealth 2018;6(2):e44 View
  31. Dorn D, Gorzelitz J, Gangnon R, Bell D, Koltyn K, Cadmus-Bertram L. Automatic Identification of Physical Activity Type and Duration by Wearable Activity Trackers: A Validation Study. JMIR mHealth and uHealth 2019;7(5):e13547 View
  32. Tang L, Kay J. Harnessing Long Term Physical Activity Data—How Long-term Trackers Use Data and How an Adherence-based Interface Supports New Insights. Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies 2017;1(2):1 View
  33. Shin G, Jarrahi M, Fei Y, Karami A, Gafinowitz N, Byun A, Lu X. Wearable activity trackers, accuracy, adoption, acceptance and health impact: A systematic literature review. Journal of Biomedical Informatics 2019;93:103153 View
  34. Li D, Vaidya J, Wang M, Bush B, Lu C, Kollef M, Bailey T. Feasibility Study of Monitoring Deterioration of Outpatients Using Multimodal Data Collected by Wearables. ACM Transactions on Computing for Healthcare 2020;1(1):1 View
  35. Brinton J, Keating M, Ortiz A, Evenson K, Furberg R. Establishing Linkages Between Distributed Survey Responses and Consumer Wearable Device Datasets: A Pilot Protocol. JMIR Research Protocols 2017;6(4):e66 View
  36. Gaudet J, Gallant F, Bélanger M. A Bit of Fit: Minimalist Intervention in Adolescents Based on a Physical Activity Tracker. JMIR mHealth and uHealth 2017;5(7):e92 View
  37. Nyenhuis S, Balbim G, Ma J, Marquez D, Wilbur J, Sharp L, Kitsiou S. A Walking Intervention Supplemented With Mobile Health Technology in Low-Active Urban African American Women With Asthma: Proof-of-Concept Study. JMIR Formative Research 2020;4(3):e13900 View
  38. Hartman S, Nelson S, Weiner L. Patterns of Fitbit Use and Activity Levels Throughout a Physical Activity Intervention: Exploratory Analysis from a Randomized Controlled Trial. JMIR mHealth and uHealth 2018;6(2):e29 View
  39. Stewart J, Besenyi G, Williams L, Burt V, Anglin J, Ghamande S, Coughlin S. Healthy lifestyle intervention for African American uterine cancer survivors: Study protocol. Contemporary Clinical Trials Communications 2017;8:11 View
  40. Phillips S, Cadmus-Bertram L, Rosenberg D, Buman M, Lynch B. Wearable Technology and Physical Activity in Chronic Disease: Opportunities and Challenges. American Journal of Preventive Medicine 2018;54(1):144 View
  41. Larsen B, Micucci S, Hartman S, Ramos G. Feasibility and Acceptability of a Counseling- and mHealth-Based Physical Activity Intervention for Pregnant Women With Diabetes: The Fit for Two Pilot Study. JMIR mHealth and uHealth 2020;8(10):e18915 View
  42. Taber J, Dickerman B, Okhovat J, Geller A, Dwyer L, Hartman A, Perna F. Skin cancer interventions across the cancer control continuum: Review of technology, environment, and theory. Preventive Medicine 2018;111:451 View
  43. Painter S, Ahmed R, Hill J, Kushner R, Lindquist R, Brunning S, Margulies A. What Matters in Weight Loss? An In-Depth Analysis of Self-Monitoring. Journal of Medical Internet Research 2017;19(5):e160 View
  44. Grossman J, Arigo D, Bachman J. Meaningful weight loss in obese postmenopausal women: a pilot study of high-intensity interval training and wearable technology. Menopause 2018;25(4):465 View
  45. Rosenberg D, Kadokura E, Morris M, Renz A, Vilardaga R. Application of N-of-1 Experiments to Test the Efficacy of Inactivity Alert Features in Fitness Trackers to Increase Breaks from Sitting in Older Adults. Methods of Information in Medicine 2017;56(06):427 View
  46. Swartz M, Lewis Z, Swartz M, Martinez E, Lyons E. Brief Report: Active Ingredients for Adherence to a Tracker-Based Physical Activity Intervention in Older Adults. Journal of Applied Gerontology 2019;38(7):1023 View
  47. Pope Z, Zeng N, Zhang R, Lee H, Gao Z. Effectiveness of Combined Smartwatch and Social Media Intervention on Breast Cancer Survivor Health Outcomes: A 10-Week Pilot Randomized Trial. Journal of Clinical Medicine 2018;7(6):140 View
  48. Shin S, Yeom C, Shin C, Shin J, Jeong J, Shin J, Lee Y. Activity monitoring using a mHealth device and correlations with psychopathology in patients with chronic schizophrenia. Psychiatry Research 2016;246:712 View
  49. Ptomey L, Willis E, Lee J, Washburn R, Gibson C, Honas J, Donnelly J. The feasibility of using pedometers for self-report of steps and accelerometers for measuring physical activity in adults with intellectual and developmental disabilities across an 18-month intervention. Journal of Intellectual Disability Research 2017;61(8):792 View
  50. Edney S, Bogomolova S, Ryan J, Olds T, Sanders I, Maher C. Creating Engaging Health Promotion Campaigns on Social Media: Observations and Lessons From Fitbit and Garmin. Journal of Medical Internet Research 2018;20(12):e10911 View
  51. Tang L, Meyer J, Epstein D, Bragg K, Engelen L, Bauman A, Kay J. Defining Adherence. Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies 2018;2(1):1 View
  52. Park I, Oh B, Li G, Park J, Lee S. Improvement of Health Indicators after Participating in Health Promotion Program of General Hospital Staff: A Pilot Study. Korean Journal of Health Promotion 2018;18(1):15 View
  53. Cattivelli R, Castelnuovo G, Musetti A, Varallo G, Spatola C, Riboni F, Usubini A, Tosolin F, Manzoni G, Capodaglio P, Rossi A, Pietrabissa G, Molinari E. ACTonHEALTH study protocol: promoting psychological flexibility with activity tracker and mHealth tools to foster healthful lifestyle for obesity and other chronic health conditions. Trials 2018;19(1) View
  54. Buchholz S, Wilbur J, Halloway S, Schoeny M, Johnson T, Vispute S, Kitsiou S. Study protocol for a sequential multiple assignment randomized trial (SMART) to improve physical activity in employed women. Contemporary Clinical Trials 2020;89:105921 View
  55. Kim J, Kam H, Kim Y, Lee Y, Lee J. Understanding Time Series Patterns of Weight and Meal History Reports in Mobile Weight Loss Intervention Programs: Data-Driven Analysis. Journal of Medical Internet Research 2020;22(8):e17521 View
  56. Brakenridge C, Healy G, Winkler E, Fjeldsoe B. Usage, Acceptability, and Effectiveness of an Activity Tracker in a Randomized Trial of a Workplace Sitting Intervention: Mixed-Methods Evaluation. Interactive Journal of Medical Research 2018;7(1):e5 View
  57. McNeil J, Farris M, Ruan Y, Merry H, Lynch B, Matthews C, Courneya K, Friedenreich C. Effects of prescribed aerobic exercise volume on physical activity and sedentary time in postmenopausal women: a randomized controlled trial. International Journal of Behavioral Nutrition and Physical Activity 2018;15(1) View
  58. Price K, Bird S, Lythgo N, Raj I, Wong J, Lynch C. Validation of the Fitbit One, Garmin Vivofit and Jawbone UP activity tracker in estimation of energy expenditure during treadmill walking and running. Journal of Medical Engineering & Technology 2017;41(3):208 View
  59. Vetrovsky T, Cupka J, Dudek M, Kuthanova B, Vetrovska K, Capek V, Bunc V. A pedometer-based walking intervention with and without email counseling in general practice: a pilot randomized controlled trial. BMC Public Health 2018;18(1) View
  60. Perry B, Herrington W, Goldsack J, Grandinetti C, Vasisht K, Landray M, Bataille L, DiCicco R, Bradley C, Narayan A, Papadopoulos E, Sheth N, Skodacek K, Stem K, Strong T, Walton M, Corneli A. Use of Mobile Devices to Measure Outcomes in Clinical Research, 2010–2016: A Systematic Literature Review. Digital Biomarkers 2018;2(1):11 View
  61. Dreher N, Hadeler E, Hartman S, Wong E, Acerbi I, Rugo H, Majure M, Chien A, Esserman L, Melisko M. Fitbit Usage in Patients With Breast Cancer Undergoing Chemotherapy. Clinical Breast Cancer 2019;19(6):443 View
  62. Katz S, Marshall B. Tracked and fit: FitBits, brain games, and the quantified aging body. Journal of Aging Studies 2018;45:63 View
  63. Ward W, Meeker C, Handorf E, Hill M, Einarson M, Alpaugh R, Holden T, Astsaturov I, Denlinger C, Hall M, Reddy S, Sigurdson E, Dotan E, Zibelman M, Meyer J, Farma J, Vijayvergia N. Feasibility of Fitness Tracker Usage to Assess Activity Level and Toxicities in Patients With Colorectal Cancer. JCO Clinical Cancer Informatics 2021;(5):125 View
  64. Kerrigan S, Forman E, Williams D, Patel M, Loyka C, Zhang F, Crosby R, Butryn M. Project Step: A Randomized Controlled Trial Investigating the Effects of Frequent Feedback and Contingent Incentives on Physical Activity. Journal of Physical Activity and Health 2021;18(3):247 View
  65. Curran M, Tierney A, Collins L, Kennedy L, McDonnell C, Jurascheck A, Sheikhi A, Walsh C, Button B, Galvin R, Casserly B, Cahalan R. Steps Ahead: optimising physical activity in adults with cystic fibrosis: Study Protocol for a pilot randomised trial using wearable technology. HRB Open Research 2020;3:21 View
  66. Peng W, Li L, Kononova A, Cotten S, Kamp K, Bowen M. Habit Formation in Wearable Activity Tracker Use Among Older Adults: Qualitative Study. JMIR mHealth and uHealth 2021;9(1):e22488 View
  67. Claudel S, Tamura K, Troendle J, Andrews M, Ceasar J, Mitchell V, Vijayakumar N, Powell-Wiley T. Comparing Methods to Identify Wear-Time Intervals for Physical Activity With the Fitbit Charge 2. Journal of Aging and Physical Activity 2021;29(3):529 View
  68. Oppezzo M, Tremmel J, Desai M, Baiocchi M, Ramo D, Cullen M, Prochaska J. Twitter-Based Social Support Added to Fitbit Self-Monitoring for Decreasing Sedentary Behavior: Protocol for a Randomized Controlled Pilot Trial With Female Patients From a Women’s Heart Clinic. JMIR Research Protocols 2020;9(12):e20926 View
  69. Curran M, Tierney A, Collins L, Kennedy L, McDonnell C, Jurascheck A, Sheikhi A, Walsh C, Button B, Galvin R, Casserly B, Cahalan R. Steps Ahead: optimising physical activity in adults with cystic fibrosis: Study Protocol for a pilot randomised trial using wearable technology, goal setting and text message feedback.. HRB Open Research 2020;3:21 View
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  71. Rahimy E, Usoz M, von Eyben R, Fujimoto D, Watanabe D, Karam A, Jairam-Thodla A, Mills M, Dorigo O, Diver E, Teng N, English D, Kidd E. Phase II trial evaluating efficacy of a Fitbit program for improving the health of endometrial cancer survivors. Gynecologic Oncology 2021;161(1):275 View
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  75. Robertson M, Green C, Liao Y, Durand C, Basen-Engquist K. Self-efficacy and Physical Activity in Overweight and Obese Adults Participating in a Worksite Weight Loss Intervention: Multistate Modeling of Wearable Device Data. Cancer Epidemiology Biomarkers & Prevention 2020;29(4):769 View
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  77. McNeil J, Fahim M, Stone C, O’Reilly R, Courneya K, Friedenreich C. Adherence to a lower versus higher intensity physical activity intervention in the Breast Cancer & Physical Activity Level (BC-PAL) Trial. Journal of Cancer Survivorship 2021 View
  78. Marques I, Kitsiou S, Gerber B, Buchholz S, Bustamante E, Marquez D. Feasibility of a Latin Dance Program with mHealth for Middle-Aged and Older Latinxs (BAILA TECH). Translational Journal of the American College of Sports Medicine 2021;6(1) View
  79. Malhotra R, Kumar U, Virgen P, Magallon B, Garimella P, Chopra T, Kotanko P, Ikizler T, Trzebinska D, Cadmus‐Bertram L, Ix J. Physical activity in hemodialysis patients on nondialysis and dialysis days: Prospective observational study. Hemodialysis International 2021;25(2):240 View
  80. 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
  81. Orstad S, Gerchow L, Patel N, Reddy M, Hernandez C, Wilson D, Jay M. Defining Valid Activity Monitor Data: A Multimethod Analysis of Weight-Loss Intervention Participants’ Barriers to Wear and First 100 Days of Physical Activity. Informatics 2021;8(2):39 View
  82. Dachel T, Mota D. Technology and Human Connection to Prevent Diabetes in Rural United States. The Journal for Nurse Practitioners 2021 View
  83. Pudkasam S, Feehan J, Talevski J, Vingrys K, Polman R, Chinlumprasert N, Stojanovska L, Apostolopoulos V. Motivational strategies to improve adherence to physical activity in breast cancer survivors: A systematic review and meta-analysis. Maturitas 2021;152:32 View
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Books/Policy Documents

  1. Rovniak L, King A. Walking. View
  2. Talavera E, Petkov N, Radeva P. Wearable Sensors. View