Devices for Self-Monitoring Sedentary Time or Physical Activity: A Scoping Review

Journals

1. 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
2. Waldron J, Alborn-Yilek S, Gute G, Schares D, Huckstadt K. School Administrators’ Experiences in a 6-Month Well-Being Pilot Program. Journal of School Leadership 2019;29(2):150 View
3. Chia G, Anderson A, McLean L. Behavior Change Techniques Incorporated in Fitness Trackers: Content Analysis. JMIR mHealth and uHealth 2019;7(7):e12768 View
4. GILL J, HAWARI N, MAXWELL D, LOUDEN D, MOURSELAS N, BUNN C, GRAY C, VAN DER PLOEG H, HUNT K, MARTIN A, WYKE S, MUTRIE N. Validation of a Novel Device to Measure and Provide Feedback on Sedentary Behavior. Medicine & Science in Sports & Exercise 2018;50(3):525 View
5. Gal R, May A, van Overmeeren E, Simons M, Monninkhof E. The Effect of Physical Activity Interventions Comprising Wearables and Smartphone Applications on Physical Activity: a Systematic Review and Meta-analysis. Sports Medicine - Open 2018;4(1) View
6. Jin H, Abu‐Raya Y, Haick H. Advanced Materials for Health Monitoring with Skin‐Based Wearable Devices. Advanced Healthcare Materials 2017;6(11) View
7. Kooiman T, de Groot M, Hoogenberg K, Krijnen W, van der Schans C, Kooy A. Self-tracking of Physical Activity in People With Type 2 Diabetes. CIN: Computers, Informatics, Nursing 2018;36(7):340 View
8. Ng K, Tynjälä J, Kokko S. Ownership and Use of Commercial Physical Activity Trackers Among Finnish Adolescents: Cross-Sectional Study. JMIR mHealth and uHealth 2017;5(5):e61 View
9. Boissy P, Blamoutier M, Brière S, Duval C. Quantification of Free-Living Community Mobility in Healthy Older Adults Using Wearable Sensors. Frontiers in Public Health 2018;6 View
10. Kinsey A, Whipple M, Reid L, Affuso O. Formative Assessment: Design of a Web-Connected Sedentary Behavior Intervention for Females. JMIR Human Factors 2017;4(4):e28 View
11. Lau Y, Cheng L, Chi C, Tsai C, Ong K, Ho-Lim S, Wang W, Tan K. Development of a Healthy Lifestyle Mobile App for Overweight Pregnant Women: Qualitative Study. JMIR mHealth and uHealth 2018;6(4):e91 View
12. 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
13. TİMURTAŞ E, POLAT M. Usability of Mobile Health Application for Individuals with Type 2 Diabetes Mellitus and Clinicians. Clinical and Experimental Health Sciences 2020;10(1):54 View
14. Dinh-Le C, Chuang R, Chokshi S, Mann D. Wearable Health Technology and Electronic Health Record Integration: Scoping Review and Future Directions. JMIR mHealth and uHealth 2019;7(9):e12861 View
15. Martin A, Adams J, Bunn C, Gill J, Gray C, Hunt K, Maxwell D, van der Ploeg H, Wyke S, Mutrie N. Feasibility of a real-time self-monitoring device for sitting less and moving more: a randomised controlled trial. BMJ Open Sport & Exercise Medicine 2017;3(1):e000285 View
16. Eyre E, Tallis J, Wilson S, Wilde L, Akhurst L, Wanderleys R, Duncan M. Research Tracker 6 Accelerometer Calibration and Validation in Comparison to GENEActiv, ActiGraph, and Gas Analysis in Young Adults. Journal for the Measurement of Physical Behaviour 2019;2(3):176 View
17. Huang Y, Benford S, Blake H. Digital Interventions to Reduce Sedentary Behaviors of Office Workers: Scoping Review. Journal of Medical Internet Research 2019;21(2):e11079 View
18. Macridis S, Johnston N, Johnson S, Vallance J, Jan Y. Consumer physical activity tracking device ownership and use among a population-based sample of adults. PLOS ONE 2018;13(1):e0189298 View
19. ROSENBERGER M, FULTON J, BUMAN M, TROIANO R, GRANDNER M, BUCHNER D, HASKELL W. The 24-Hour Activity Cycle: A New Paradigm for Physical Activity. Medicine & Science in Sports & Exercise 2019;51(3):454 View
20. Arrogi A, Boen F, Seghers J. Validation of a smart chair and corresponding smartphone app as an objective measure of desk-based sitting. Journal of Occupational Health 2019;61(1):121 View
21. Müller A, Wang N, Yao J, Tan C, Low I, Lim N, Tan J, Tan A, Müller-Riemenschneider F. Heart Rate Measures From Wrist-Worn Activity Trackers in a Laboratory and Free-Living Setting: Validation Study. JMIR mHealth and uHealth 2019;7(10):e14120 View
22. Chuah S. You inspire me and make my life better: Investigating a multiple sequential mediation model of smartwatch continuance intention. Telematics and Informatics 2019;43:101245 View
23. Maylor B, Edwardson C, Zakrzewski-Fruer J, Champion R, Bailey D. Efficacy of a Multicomponent Intervention to Reduce Workplace Sitting Time in Office Workers. Journal of Occupational & Environmental Medicine 2018;60(9):787 View
24. Ezeugwu V, Manns P. Using Intervention Mapping to develop and implement a home-based sedentary behavior change intervention after stroke. Translational Behavioral Medicine 2018 View
25. Takada T, Imamoto M, Sasaki S, Azuma T, Miyashita J, Hayashi M, Fukuma S, Fukuhara S. Effects of self-monitoring of daily salt intake estimated by a simple electrical device for salt reduction: a cluster randomized trial. Hypertension Research 2018;41(7):524 View
26. Huang Y, Benford S, Price D, Patel R, Li B, Ivanov A, Blake H. Using Internet of Things to Reduce Office Workers’ Sedentary Behavior: Intervention Development Applying the Behavior Change Wheel and Human-Centered Design Approach. JMIR mHealth and uHealth 2020;8(7):e17914 View
27. Sardinha L, Júdice P. Usefulness of motion sensors to estimate energy expenditure in children and adults: a narrative review of studies using DLW. European Journal of Clinical Nutrition 2017;71(3):331 View
28. Takemoto M, Lewars B, Hurst S, Crist K, Nebeker C, Madanat H, Nichols J, Rosenberg D, Kerr J. Participants’ Perceptions on the Use of Wearable Devices to Reduce Sitting Time: Qualitative Analysis. JMIR mHealth and uHealth 2018;6(3):e73 View
29. Yang L, Hipp J, Lee J, Tabak R, Dodson E, Marx C, Brownson R. Work-related correlates of occupational sitting in a diverse sample of employees in Midwest metropolitan cities. Preventive Medicine Reports 2017;6:197 View
30. Stephenson A, McDonough S, Murphy M, Nugent C, Wilson I, Mair J. Exploring the Views of Desk-Based Office Workers and Their Employers’ Beliefs Regarding Strategies to Reduce Occupational Sitting Time, With an Emphasis on Technology-Supported Approaches. Journal of Occupational & Environmental Medicine 2020;62(2):149 View
31. Wen D, Zhang X, Liu X, Lei J. Evaluating the Consistency of Current Mainstream Wearable Devices in Health Monitoring: A Comparison Under Free-Living Conditions. Journal of Medical Internet Research 2017;19(3):e68 View
32. Parker N, Arlinghaus K, Johnston C. Integrating Physical Activity Into Clinical Cancer Care. American Journal of Lifestyle Medicine 2018;12(3):220 View
33. Takemoto M, Godbole S, Rosenberg D, Nebeker C, Natarajan L, Madanat H, Nichols J, Kerr J. The search for the ejecting chair: a mixed-methods analysis of tool use in a sedentary behavior intervention. Translational Behavioral Medicine 2020;10(1):186 View
34. Bort-Roig J, Chirveches-Pérez E, Garcia-Cuyàs F, Dowd K, Puig-Ribera A. Monitoring Occupational Sitting, Standing, and Stepping in Office Employees With the W@W-App and the MetaWearC Sensor: Validation Study. JMIR mHealth and uHealth 2020;8(8):e15338 View
35. Ezeugwu V, Manns P. The Feasibility and Longitudinal Effects of a Home-Based Sedentary Behavior Change Intervention After Stroke. Archives of Physical Medicine and Rehabilitation 2018;99(12):2540 View
36. Huang Q, Cohen D, Komarzynski S, Li X, Innominato P, Lévi F, Finkenstädt B. Hidden Markov models for monitoring circadian rhythmicity in telemetric activity data. Journal of The Royal Society Interface 2018;15(139):20170885 View
37. Jagannathan R, Ziolkowski S, Weber M, Cobb J, Pham N, Long J, Anand S, Lobelo F. Physical activity promotion for patients transitioning to dialysis using the “Exercise is Medicine” framework: a multi-center randomized pragmatic trial (EIM-CKD trial) protocol. BMC Nephrology 2018;19(1) View
38. Whelan M, Morgan P, Sherar L, Kingsnorth A, Magistro D, Esliger D. Brain Activation in Response to Personalized Behavioral and Physiological Feedback From Self-Monitoring Technology: Pilot Study. Journal of Medical Internet Research 2017;19(11):e384 View
39. Compernolle S, DeSmet A, Poppe L, Crombez G, De Bourdeaudhuij I, Cardon G, van der Ploeg H, Van Dyck D. Effectiveness of interventions using self-monitoring to reduce sedentary behavior in adults: a systematic review and meta-analysis. International Journal of Behavioral Nutrition and Physical Activity 2019;16(1) View
40. Maxwell-Smith C, Cohen P, Platell C, Tan P, Levitt M, Salama P, Makin G, Tan J, Salfinger S, Kader Ali Mohan G, Kane R, Hince D, Jiménez-Castuera R, Hardcastle S. Wearable Activity Technology And Action-Planning (WATAAP) to promote physical activity in cancer survivors: Randomised controlled trial protocol. International Journal of Clinical and Health Psychology 2018;18(2):124 View
41. 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
42. Pinto A, Roschel H, de Sá Pinto A, Lima F, Pereira R, Silva C, Bonfá E, Gualano B. Physical inactivity and sedentary behavior: Overlooked risk factors in autoimmune rheumatic diseases?. Autoimmunity Reviews 2017;16(7):667 View
43. Bahadori S, Collard S, Williams J, Swain I. A review of current use of commercial wearable technology and smartphone apps with application in monitoring individuals following total hip replacement surgery. Journal of Medical Engineering & Technology 2020;44(6):324 View
44. Ehn M, Eriksson L, Åkerberg N, Johansson A. Activity Monitors as Support for Older Persons’ Physical Activity in Daily Life: Qualitative Study of the Users’ Experiences. JMIR mHealth and uHealth 2018;6(2):e34 View
45. Ho T, Lee C, Wong S, Lau Y. Internet-based self-monitoring interventions for overweight and obese adolescents: A systematic review and meta-analysis. International Journal of Medical Informatics 2018;120:20 View
46. Stephenson A, Garcia-Constantino M, McDonough S, Murphy M, Nugent C, Mair J. Iterative four-phase development of a theory-based digital behaviour change intervention to reduce occupational sedentary behaviour. DIGITAL HEALTH 2020;6 View
47. Lynch B, Kaufman T, Rajjo T, Mohammed K, Kumar S, Murad M, Gentile N, Koepp G, McCrady-Spitzer S, Levine J. Accuracy of Accelerometers for Measuring Physical Activity and Levels of Sedentary Behavior in Children: A Systematic Review. Journal of Primary Care & Community Health 2019;10 View
48. Sparaco M, Lavorgna L, Conforti R, Tedeschi G, Bonavita S. The Role of Wearable Devices in Multiple Sclerosis. Multiple Sclerosis International 2018;2018:1 View
49. Whelan M, Orme M, Kingsnorth A, Sherar L, Denton F, Esliger D. Examining the Use of Glucose and Physical Activity Self-Monitoring Technologies in Individuals at Moderate to High Risk of Developing Type 2 Diabetes: Randomized Trial. JMIR mHealth and uHealth 2019;7(10):e14195 View
50. Biddle S, Edwardson C, Gorely T, Wilmot E, Yates T, Nimmo M, Khunti K, Davies M. Reducing sedentary time in adults at risk of type 2 diabetes: process evaluation of the STAND (Sedentary Time ANd Diabetes) RCT. BMC Public Health 2017;17(1) View
51. Lau Y, Klainin‐Yobas P, Htun T, Wong S, Tan K, Ho‐Lim S, Chi C, Tsai C, Ong K, Shorey S, Tam W. Electronic‐based lifestyle interventions in overweight or obese perinatal women: a systematic review and meta‐analysis. Obesity Reviews 2017;18(9):1071 View
52. Depp C, Perivoliotis D, Holden J, Dorr J, Granholm E. Single-Session Mobile-Augmented Intervention in Serious Mental Illness: A Three-Arm Randomized Controlled Trial. Schizophrenia Bulletin 2019;45(4):752 View
53. MacPherson M, Merry K, Locke S, Jung M. Effects of Mobile Health Prompts on Self-Monitoring and Exercise Behaviors Following a Diabetes Prevention Program: Secondary Analysis From a Randomized Controlled Trial. JMIR mHealth and uHealth 2019;7(9):e12956 View
54. 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
55. Lansing J, Ellingson L, DeShaw K, Cruz-Maldonado G, Hurt T, Meyer J. A qualitative analysis of barriers and facilitators to reducing sedentary time in adults with chronic low back pain. BMC Public Health 2021;21(1) View
56. Jones S, Hue W, Kelly R, Barnett R, Henderson V, Sengupta R. Determinants of Longitudinal Adherence in Smartphone-Based Self-Tracking for Chronic Health Conditions. Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies 2021;5(1):1 View
57. Botero J, Farah B, Correia M, Lofrano-Prado M, Cucato G, Shumate G, Ritti-Dias R, Prado W. Impact of the COVID-19 pandemic stay at home order and social isolation on physical activity levels and sedentary behavior in Brazilian adults. Einstein (São Paulo) 2021;19 View
58. Turner-McGrievy G, Yang C, Monroe C, Pellegrini C, West D. Is Burden Always Bad? Emerging Low-Burden Approaches to Mobile Dietary Self-monitoring and the Role Burden Plays with Engagement. Journal of Technology in Behavioral Science 2021;6(3):447 View
59. Carrier B, Barrios B, Jolley B, Navalta J. Validity and Reliability of Physiological Data in Applied Settings Measured by Wearable Technology: A Rapid Systematic Review. Technologies 2020;8(4):70 View
60. 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
61. Dong Y, Wang K, Zhu S, Li W, Yang P. Design and Development of an Intelligent Skipping Rope and Service System for Pupils. Healthcare 2021;9(8):954 View
62. Bonnet C, Barela J. Health Issues Due to the Global Prevalence of Sedentariness and Recommendations towards Achieving a Healthier Behaviour. Healthcare 2021;9(8):995 View
63. Ráthonyi G, Takács V, Szilágyi R, Bácsné Bába É, Müller A, Bács Z, Harangi-Rákos M, Balogh L, Ráthonyi-Odor K. Your Physical Activity Is in Your Hand—Objective Activity Tracking Among University Students in Hungary, One of the Most Obese Countries in Europe. Frontiers in Public Health 2021;9 View
64. Tsutsui T, Tsutsui Y, Tsukamoto M, Nakamura E. Validation of foot plantar pressure sensor data used to estimate standing, sitting, and moving durations in one working day. Journal of Orthopaedic Science 2023;28(1):217 View
65. Van Dyck D, Barnett A, Cerin E, Conway T, Esteban-Cornejo I, Hinckson E, Rubín L, Rush E, Baron-Epel O, Cain K, Christiansen L, Islam M, Mitáš J, Molina-García J, Oyeyemi A, Ranjani H, Reis R, Santos M, Sit C, Timperio A, Muda W, Sallis J. Associations of accelerometer measured school- and non-school based physical activity and sedentary time with body mass index: IPEN Adolescent study. International Journal of Behavioral Nutrition and Physical Activity 2022;19(1) View
66. Boudreaux B, Schenck J, Chu Z, Schmidt M. Effectiveness of Fitbit Activity Prompts in Reducing Sitting Time and Increasing Physical Activity in University Employees: A Randomized Controlled Trial. Journal for the Measurement of Physical Behaviour 2022;5(3):178 View
67. Townsley M, Waldron J, Alborn‐Yilek S, Schares D, Huckstadt K, McNamara S, Gute D. School Administrators' Experiences in a 6‐Month Health and Wellness Community of Practice. Journal of School Health 2021;91(10):857 View
68. Barboza L, Werneck A, Ohara D, Ronque E, Romanzini M, Silva D. Comparison between ActiGraph GT3X and ActivPAL to assess sedentary behavior during the school period. Motriz: Revista de Educação Física 2022;28 View
69. Fronczek L, Mende M, Scott M, Nenkov G, Gustafsson A. Friend or foe? Can anthropomorphizing self-tracking devices backfire on marketers and consumers?. Journal of the Academy of Marketing Science 2023;51(5):1075 View
70. Hallam K, Peeters A, Gupta A, Bilsborough S. Moving minds: Mental health and wellbeing benefits of a 50-day workplace physical activity program. Current Psychology 2023;42(15):13038 View
71. Schepens Niemiec S, Cariño B, Chatfield A, Quan K. mHealth-Supported Interventions With Potential to Address Sedentary Behavior in Older Adults: A Scoping Review. Journal of Aging and Physical Activity 2022;30(6):1085 View
72. Dehghan Ghahfarokhi A, Vosadi E, Barzegar H, Saatchian V. The Effect of Wearable and Smartphone Applications on Physical Activity, Quality of Life, and Cardiovascular Health Outcomes in Overweight/Obese Adults: A Systematic Review and Meta-analysis of Randomized Controlled Trials. Biological Research For Nursing 2022;24(4):503 View
73. Santa Mina D, Adams S, Brahmbhatt P, Ferreira V, St-Pierre J, Scheede-Bergdahl C. Introduction to Pre-operative Exercise Prescription and Physical Activity Promotion for Clinicians and Exercise Professionals. Current Anesthesiology Reports 2022;12(1):156 View
74. Keats M, Yu X, Sweeney Magee M, Forbes C, Grandy S, Sweeney E, Dummer T. Use of Wearable Activity-Monitoring Technologies to Promote Physical Activity in Cancer Survivors: Challenges and Opportunities for Improved Cancer Care. International Journal of Environmental Research and Public Health 2023;20(6):4784 View
75. Huh K, Lee Y, Kim S. Self-Quantification of Services: Cost of Real-Time Feedback. Journal of Business Research 2023;164:113947 View
76. Daryabeygi R, Rawstorn J, Dunstan D, Shariful Islam S, Abdelrazek M, Kouzani A, Thummala P, McVicar J, Maddison R. A Bluetooth-enabled Device for Real-time Detection of Sitting, Standing and Walking: A Validation Study (Preprint). JMIR Formative Research 2023 View
77. Krukowski R, Denton A, König L. Impact of feedback generation and presentation on self-monitoring behaviors, dietary intake, physical activity, and weight: a systematic review and meta-analysis. International Journal of Behavioral Nutrition and Physical Activity 2024;21(1) View
78. Wessel L, Sundermeier J, Rothe H, Hanke S, Baiyere A, Rappert F, Gersch M. Designing as trading-off: a practice-based view on smart service systems. European Journal of Information Systems 2024:1 View
79. Wu J, Ram N, Marks J, Streeper N, Conroy D. Small Data Approaches to Link Faster Time Scale Engagement Dynamics with Slower Time Scale Outcomes in Biobehavioral Interventions. Chinese Political Science Review 2024 View
80. Zou C, Hollingsworth J, Farrell R, Fox B. Promoting Physical Activity Among Health Professional Students, Faculty, and Staff Members: A Competition-Based Intervention. American Journal of Lifestyle Medicine 2024 View
81. Bilici F. AKILLI SAAT TEKNOLOJİSİNE YÖNELİK TÜKETİCİ ALGILARI: MEMNUNİYET VE TEKRAR SATIN ALMA NİYETİ ÜZERİNE BİR ARAŞTIRMA. Anadolu Üniversitesi İktisadi ve İdari Bilimler Fakültesi Dergisi 2024;25(3):267 View

Books/Policy Documents

1. Manzoor A, Mollee J, van Halteren A, Klein M. Computational Collective Intelligence. View
2. Petsani D, Kostantinidis E, Diaz-Orueta U, Hopper L, Bamidis P. Information and Communication Technologies for Ageing Well and e-Health. View
3. Bruhn A, Wills H. Emerging Research and Issues in Behavioral Disabilities. View
4. Jin H, Jin Q, Jian J. Wearable Technologies. View
5. Pires I, Garcia N, Teixeira M. Advances in Practical Applications of Agents, Multi-Agent Systems, and Social Good. The PAAMS Collection. View
6. Healy G, Stephens S, Goode A. Sedentary Behaviour Epidemiology. View