Published on 11.04.18 in Vol 6, No 4 (2018): April
Works citing "Wearable Activity Tracker Use Among Australian Adolescents: Usability and Acceptability Study"
According to Crossref, the following articles are citing this article (DOI 10.2196/mhealth.9199):
(note that this is only a small subset of citations)
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Attig C, Franke T. Abandonment of personal quantification: A review and empirical study investigating reasons for wearable activity tracking attrition. Computers in Human Behavior 2020;102:223
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. The Blockchain Phenomenon: Conceptualizing Decentralized Networks and the Value Proposition to the Sport Industry. International Journal of Sport Communication 2019;12(3):313
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Kleiman EM, Glenn CR, Liu RT. Real-Time Monitoring of Suicide Risk among Adolescents: Potential Barriers, Possible Solutions, and Future Directions. Journal of Clinical Child & Adolescent Psychology 2019;48(6):934
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TİMURTAŞ E, POLAT MG. Usability of Mobile Health Application for Individuals with Type 2 Diabetes Mellitus and Clinicians. Clinical and Experimental Health Sciences 2020;10(1):54
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Hanghøj S, Boisen KA, Hjerming M, Elsbernd A, Pappot H. Usability of a Mobile Phone App Aimed at Adolescents and Young Adults During and After Cancer Treatment: Qualitative Study. JMIR Cancer 2020;6(1):e15008
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. ‘Better understanding about what's going on’: young Australians’ use of digital technologies for health and fitness. Sport, Education and Society 2020;25(1):1
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Drehlich M, Naraine M, Rowe K, Lai SK, Salmon J, Brown H, Koorts H, Macfarlane S, Ridgers ND. 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
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Crossley SGM, McNarry MA, Eslambolchilar P, Knowles Z, Mackintosh KA. 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
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Zhou L, DeAlmeida D, Parmanto B. Applying a User-Centered Approach to Building a Mobile Personal Health Record App: Development and Usability Study. JMIR mHealth and uHealth 2019;7(7):e13194
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Koorts H, Salmon J, Timperio A, Ball K, Macfarlane S, Lai SK, Brown H, Chappel SE, Lewis M, Ridgers ND. Translatability of a Wearable Technology Intervention to Increase Adolescent Physical Activity: Mixed Methods Implementation Evaluation. Journal of Medical Internet Research 2020;22(8):e13573
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Blower S, Swallow V, Maturana C, Stones S, Phillips R, Dimitri P, Marshman Z, Knapp P, Dean A, Higgins S, Kellar I, Curtis P, Mills N, Martin-Kerry J. Children and young people’s concerns and needs relating to their use of health technology to self-manage long-term conditions: a scoping review. Archives of Disease in Childhood 2020;105(11):1093
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Groffik D, Fromel K, Badura P. Composition of weekly physical activity in adolescents by level of physical activity. BMC Public Health 2020;20(1)
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Jia Y, Wang W, Wen D, Liang L, Gao L, Lei J. Perceived user preferences and usability evaluation of mainstream wearable devices for health monitoring. PeerJ 2018;6:e5350
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Farivar S, Abouzahra M, Ghasemaghaei M. Wearable device adoption among older adults: A mixed-methods study. International Journal of Information Management 2020;55:102209
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Guillodo E, Lemey C, Simonnet M, Walter M, Baca-García E, Masetti V, Moga S, Larsen M, Ropars J, Berrouiguet S. Clinical Applications of Mobile Health Wearable–Based Sleep Monitoring: Systematic Review. JMIR mHealth and uHealth 2020;8(4):e10733
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Mackintosh KA, Chappel SE, Salmon J, Timperio A, Ball K, Brown H, Macfarlane S, Ridgers ND. Parental Perspectives of a Wearable Activity Tracker for Children Younger Than 13 Years: Acceptability and Usability Study. JMIR mHealth and uHealth 2019;7(11):e13858
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Prayaga L, Devulapalli K, Prayaga C. Wearable Devices Data for Activity Prediction Using Machine Learning Algorithms. International Journal of Big Data and Analytics in Healthcare 2019;4(1):32
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Brickwood K, Williams AD, Watson G, O’Brien J. Older adults’ experiences of using a wearable activity tracker with health professional feedback over a 12-month randomised controlled trial. DIGITAL HEALTH 2020;6:205520762092167
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Nagelhout ES, Lensink R, Zhu A, Parsons BG, Jensen JD, Wu YP. The Feasibility and Acceptability of Using a Wearable UV Radiation Exposure Monitoring Device in Adults and Children: Cross-Sectional Questionnaire Study. JMIR Dermatology 2020;3(1):e15711
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Girginov V, Moore P, Olsen N, Godfrey T, Cooke F, Lu Z. Wearable technology-stimulated social interaction for promoting physical activity: A systematic review. Cogent Social Sciences 2020;6(1)
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Rahman MS, Das S, Hossain GMS, Tajrin T. Teenagers’ behavioural intention towards wearable technologies and intention to recommend others: an empirical study in Bangladesh. Journal of Science and Technology Policy Management 2022;13(1):110
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Hanghøj S, Boisen KA, Hjerming M, Pappot H. Adolescents’ and young adults’ experiences of a prototype cancer smartphone app. DIGITAL HEALTH 2021;7:205520762199725
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Seo M, Kim Y, Jung HC, Kim J, Lee J. Does Online Social Connectivity Promote Physical Activity in a Wearable Tracker-Based Intervention? A Pilot Randomized Controlled Study. Sustainability 2020;12(21):8803
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Oh J, Kang H. User engagement with smart wearables: Four defining factors and a process model. Mobile Media & Communication 2021;9(2):314
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. Young People’s Use of Digital Health Technologies in the Global North: Narrative Review. Journal of Medical Internet Research 2021;23(1):e18286
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Schoeppe S, Salmon J, Williams SL, Power D, Alley S, Rebar AL, Hayman M, Duncan MJ, Vandelanotte C. Effects of an Activity Tracker and App Intervention to Increase Physical Activity in Whole Families—The Step It Up Family Feasibility Study. International Journal of Environmental Research and Public Health 2020;17(20):7655
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Ridgers ND, Timperio A, Ball K, Lai SK, 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)
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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
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St Fleur RG, St George SM, Leite R, Kobayashi M, Agosto Y, Jake-Schoffman DE. Use of Fitbit Devices in Physical Activity Intervention Studies Across the Life Course: Narrative Review. JMIR mHealth and uHealth 2021;9(5):e23411
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Creaser AV, Clemes SA, Costa S, Hall J, Ridgers ND, Barber SE, Bingham DD. 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
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Schoeppe S, Salmon J, Williams S, Power D, Waters K, Alley S, Rebar AL, Hayman M, Duncan MJ, Vandelanotte C. Feasibility of using activity trackers and apps to increase physical activity in whole families: The Step it Up Family intervention. DIGITAL HEALTH 2022;8:205520762211290
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Vijayakumar Bharathi S. , Ghosh S. Is a Smarter Generation in the Offing?. International Journal of Technology and Human Interaction 2022;18(1):1
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Lonsdale H, Gray GM, Ahumada LM, Yates HM, Varughese A, Rehman MA. The Perioperative Human Digital Twin. Anesthesia & Analgesia 2022;134(4):885
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Lam C, Milne-Ives M, Harrington R, Jani A, Helena van Velthoven M, Harding T, Meinert E, Mulvaney S. Internet of things–Enabled technologies as an intervention for childhood obesity: A systematic review. PLOS Digital Health 2022;1(4):e0000024
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AHRAZ AO, ÇAR B, CENGİZ C. FİZİKSEL AKTİVİTENİN ARTTIRILMASINA YÖNELİK DİJİTAL TEKNOLOJİLER HAKKINDA LİTERATÜR TARAMASI: 2010-2020. Ankara Üniversitesi Beden Eğitimi ve Spor Yüksekokulu SPORMETRE Beden Eğitimi ve Spor Bilimleri Dergisi 2021;:218
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Swelam BA, Salmon J, Arundell L, Timperio A, Moriarty AL, Ridgers ND. Test-retest reliability of a measure of perceived activity compensation in primary school children and their parents: a mixed methods study. Journal of Sports Sciences 2022;40(21):2359
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Schoeppe S, Waters K, Salmon J, Williams SL, Power D, Alley S, Rebar AL, Hayman M, Duncan MJ, Vandelanotte C. Experience and Satisfaction with a Family-Based Physical Activity Intervention Using Activity Trackers and Apps: A Qualitative Study. International Journal of Environmental Research and Public Health 2023;20(4):3327
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Beck AJ, Duffett-Leger L, Bright KS, Keys EM, Hayden A, Ward TM, Ferber R. Using wearable and mobile technology to measure and promote healthy sleep behaviors in adolescents: a scoping review protocol. JBI Evidence Synthesis 2021;19(10):2760
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Verswijveren SJJM, Abbott G, Lai SK, Salmon J, Timperio A, Brown H, Macfarlane S, Ridgers ND. Mediators of Effects on Physical Activity and Sedentary Time in an Activity Tracker and Behavior Change Intervention for Adolescents: Secondary Analysis of a Cluster Randomized Controlled Trial. JMIR mHealth and uHealth 2022;10(8):e35261
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Ráthonyi G, Takács V, Szilágyi R, Bácsné Bába , 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
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Gil-Espinosa FJ, Nielsen-Rodríguez A, Romance R, Burgueño R. Smartphone applications for physical activity promotion from physical education. Education and Information Technologies 2022;27(8):11759
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Alley SJ, Schoeppe S, To QG, Parkinson L, van Uffelen J, Hunt S, Duncan MJ, Schneiders A, Vandelanotte C. Engagement, acceptability, usability and satisfaction with Active for Life, a computer-tailored web-based physical activity intervention using Fitbits in older adults. International Journal of Behavioral Nutrition and Physical Activity 2023;20(1)
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Castro-García JA, Molina-Cantero AJ, Gómez-González IM, Lafuente-Arroyo S, Merino-Monge M. Towards Human Stress and Activity Recognition: A Review and a First Approach Based on Low-Cost Wearables. Electronics 2022;11(1):155
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Hvalič-Touzery S, Šetinc M, Dolničar V. Benefits of a Wearable Activity Tracker with Safety Features for Older Adults: An Intervention Study. International Journal of Environmental Research and Public Health 2022;19(23):15723
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Creaser AV, Hall J, Costa S, Bingham DD, Clemes SA. Exploring Families’ Acceptance of Wearable Activity Trackers: A Mixed-Methods Study. International Journal of Environmental Research and Public Health 2022;19(6):3472
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Eslambolchilar P, Stawarz K, Verdezoto Dias N, McNarry MA, Crossley SG, Knowles Z, Mackintosh KA. Tangible data visualization of physical activity for children and adolescents: A qualitative study of temporal transition of experiences. International Journal of Child-Computer Interaction 2023;35:100565
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Freeman JL, Neff G. The challenge of repurposed technologies for youth: Understanding the unique affordances of digital self-tracking for adolescents. New Media & Society 2023;25(11):3047
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Klier K, Wagner M. Agreement of Sleep Measures—A Comparison between a Sleep Diary and Three Consumer Wearable Devices. Sensors 2022;22(16):6189
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Browne JD, Boland DM, Baum JT, Ikemiya K, Harris Q, Phillips M, Neufeld EV, Gomez D, Goldman P, Dolezal BA. Lifestyle Modification Using a Wearable Biometric Ring and Guided Feedback Improve Sleep and Exercise Behaviors: A 12-Month Randomized, Placebo-Controlled Study. Frontiers in Physiology 2021;12
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Wang W, Cheng J, Song W, Shen Y. The Effectiveness of Wearable Devices as Physical Activity Interventions for Preventing and Treating Obesity in Children and Adolescents: Systematic Review and Meta-analysis. JMIR mHealth and uHealth 2022;10(4):e32435
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Schoeppe S, Duncan MJ, Plotnikoff RC, Mummery WK, Rebar A, Alley S, To Q, Short CE, Vandelanotte C. Acceptability, usefulness, and satisfaction with a web-based video-tailored physical activity intervention: The TaylorActive randomized controlled trial. Journal of Sport and Health Science 2022;11(2):133
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Cucchiaro G, Ahumada L, Gray G, Fierstein J, Yates H, Householder K, Frye W, Rehman M. Feasibility of Conducting Long-term Health and Behaviors Follow-up in Adolescents: Longitudinal Observational Study. JMIR Formative Research 2022;6(8):e37054
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Truman E, Elliott C. Testing a Mobile App for Participatory Research to Identify Teen-Targeted Food Marketing: Mixed Methods Study. JMIR Formative Research 2022;6(5):e35886
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Parker K, Gould L, Nand M, Rawstorn JC, Contardo Ayala AM, Maddison R, Toffoletti K. Understanding Australian adolescent girls’ use of digital technologies for healthy lifestyle purposes: a mixed-methods study. BMC Public Health 2022;22(1)
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To QG, Green C, Vandelanotte C. Feasibility, Usability, and Effectiveness of a Machine Learning–Based Physical Activity Chatbot: Quasi-Experimental Study. JMIR mHealth and uHealth 2021;9(11):e28577
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Teo NR, Siew LED, Ang WHD, Lau Y. Wearable-Technology-Assisted Interventions for Breast-Cancer Survivors: A Meta-Analysis and Meta-Regression. Seminars in Oncology Nursing 2023;39(3):151403
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Willinger L, Oberhoffer-Fritz R, Ewert P, Müller J. Digital Health Nudging to increase physical activity in pediatric patients with congenital heart disease: A randomized controlled trial. American Heart Journal 2023;262:1
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Worlanyo JK, Adams C, Adedugbe BO, Lokoyi OO, Moses MO. Knowledge, usability, and impact of wearable fitness devices among community exercisers in Ghana. BMC Digital Health 2023;1(1)
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Hosseininoorbin S, Layeghy S, Kusy B, Jurdak R, Portmann M. HARBIC: Human activity recognition using bi-stream convolutional neural network with dual joint time–frequency representation. Internet of Things 2023;22:100816
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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
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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
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Kopp PM, Möhler E, Gröpel P. Physical activity and mental health in school-aged children: a prospective two-wave study during the easing of the COVID-19 restrictions. Child and Adolescent Psychiatry and Mental Health 2024;18(1)
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Li S, Wang Y, Chen L, Chen T, Du J, Su H, Jiang H, Wu Q, Zhang L, Bao J, Zhao M. Virtual agents among participants with methamphetamine use disorders: Acceptability and usability study. Journal of Telemedicine and Telecare 2024;
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Rezaee R, Ghaffari M, Rabiei R, Kavousi A, Rakhshanderou S. Design and usability evaluation of a mobile application for self-care among Iranian adolescents. BMC Public Health 2024;24(1)
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According to Crossref, the following books are citing this article (DOI 10.2196/mhealth.9199):
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Willemse B, Kaptein M, Batalas N, Hasaart F. Wireless Mobile Communication and Healthcare. 2021. Chapter 10:145
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Ridgers ND, Drehlich M. Digital Health. 2021. :305
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Prayaga L, Devulapalli K, Prayaga C. Research Anthology on Machine Learning Techniques, Methods, and Applications. 2022. chapter 53:1023
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