Published on 23.11.16 in Vol 4, No 4 (2016): Oct-Dec
Works citing "Feasibility and Effectiveness of Using Wearable Activity Trackers in Youth: A Systematic Review"
According to Crossref, the following articles are citing this article (DOI 10.2196/mhealth.6540):
(note that this is only a small subset of citations)
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Marin TS, Kourbelis C, Foote J, Newman P, Brown A, Daniel M, Coffee NT, Nicholls SJ, Ganesan A, Versace VL, Beks H, Haedtke CA, Clark RA. Examining adherence to activity monitoring devices to improve physical activity in adults with cardiovascular disease: A systematic review. European Journal of Preventive Cardiology 2019;26(4):382
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Lam C, Milne-Ives M, Van Velthoven MH, Meinert E. Internet of Things–Enabled Technologies for Weight Management in Children and Adolescents: Protocol for a Systematic Review. JMIR Research Protocols 2020;9(3):e16930
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Klöpfer-Krämer I, Brand A, Wackerle H, Müßig J, Kröger I, Augat P. Gait analysis – Available platforms for outcome assessment. Injury 2020;51:S90
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Goodspeed R, Yan X, Hardy J, Vydiswaran VV, Berrocal VJ, Clarke P, Romero DM, Gomez-Lopez IN, Veinot T. Comparing the Data Quality of Global Positioning System Devices and Mobile Phones for Assessing Relationships Between Place, Mobility, and Health: Field Study. JMIR mHealth and uHealth 2018;6(8):e168
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Maxwell‐Smith C, Hince D, Cohen PA, Bulsara MK, Boyle T, Platell C, Tan P, Levitt M, Salama P, Tan J, Salfinger S, Makin G, Mohan GRKA, Jiménez‐Castuera R, Hardcastle SJ. A randomized controlled trial of WATAAP to promote physical activity in colorectal and endometrial cancer survivors. Psycho-Oncology 2019;28(7):1420
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Ryan J, Edney S, Maher C. Anxious or empowered? A cross-sectional study exploring how wearable activity trackers make their owners feel. BMC Psychology 2019;7(1)
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Espinoza J, Chen A, Orozco J, Deavenport-Saman A, Yin L. Effect of personal activity trackers on weight loss in families enrolled in a comprehensive behavioral family-lifestyle intervention program in the federally qualified health center setting: A randomized controlled trial. Contemporary Clinical Trials Communications 2017;7:86
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Ng KW, Badura P, Dzielska A, Kokko S, Woods CB, Hamrik Z. Test-retest reliability of survey items on ownership and use of physical activity trackers. Acta Gymnica 2019;49(2):67
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Sharaievska I, Battista RA, Zwetsloot J. Use of Physical Activity Monitoring Devices by Families in Rural Communities: Qualitative Approach. JMIR Pediatrics and Parenting 2019;2(1):e10658
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Caterini JE, Campisi ES, Cifra B. Physical Activity Promotion in Pediatric Congenital Heart Disease: Are We Running Late?. Canadian Journal of Cardiology 2020;36(9):1406
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Lee BC, Xie J, Ajisafe T, Kim S. How Are Wearable Activity Trackers Adopted in Older Adults? Comparison between Subjective Adoption Attitudes and Physical Activity Performance. International Journal of Environmental Research and Public Health 2020;17(10):3461
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Valtonen J, Kyhälä A, Slotte S, Reunamo J. Fourth Graders’ Objectively Measured Week Long Physical Activity. The European Journal of Social & Behavioural Sciences 2019;24(1):133
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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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Mendoza JA, Baker KS, Moreno MA, Whitlock K, Abbey‐Lambertz M, Waite A, Colburn T, Chow EJ. A Fitbit and Facebook mHealth intervention for promoting physical activity among adolescent and young adult childhood cancer survivors: A pilot study. Pediatric Blood & Cancer 2017;64(12)
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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
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Ridgers ND, Timperio A, Brown H, Ball K, Macfarlane S, Lai SK, Richards K, Ngan W, Salmon J. A cluster-randomised controlled trial to promote physical activity in adolescents: the Raising Awareness of Physical Activity (RAW-PA) Study. BMC Public Health 2017;17(1)
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Heale LD, Dover S, Goh YI, Maksymiuk VA, Wells GD, Feldman BM. A wearable activity tracker intervention for promoting physical activity in adolescents with juvenile idiopathic arthritis: a pilot study. Pediatric Rheumatology 2018;16(1)
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Duff O, Walsh D, Malone S, McDermott L, Furlong B, O'Connor N, Moran K, Woods C. MedFit App, a Behavior-Changing, Theoretically Informed Mobile App for Patient Self-Management of Cardiovascular Disease: User-Centered Development. JMIR Formative Research 2018;2(1):e8
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Lemey S, Agneessens S, Rogier H. Wearable Smart Objects: Microwaves Propelling Smart Textiles: A Review of Holistic Designs for Wireless Textile Nodes. IEEE Microwave Magazine 2018;19(6):83
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Böhm B, Karwiese SD, Böhm H, Oberhoffer R. Effects of Mobile Health Including Wearable Activity Trackers to Increase Physical Activity Outcomes Among Healthy Children and Adolescents: Systematic Review. JMIR mHealth and uHealth 2019;7(4):e8298
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Rykov Y, Thach T, Dunleavy G, Roberts AC, Christopoulos G, Soh CK, Car J. Activity Tracker–Based Metrics as Digital Markers of Cardiometabolic Health: Cross-Sectional Study. JMIR mHealth and uHealth 2020;8(1):e16409
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Evans EW, Abrantes AM, Chen E, Jelalian E. Using Novel Technology within a School-Based Setting to Increase Physical Activity: A Pilot Study in School-Age Children from a Low-Income, Urban Community. BioMed Research International 2017;2017:1
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Kourbelis C, Franzon J, Foote JW, Brown A, Daniel M, Coffee NT, Newman P, Ganesan A, Nicholls S, Clark RA. Adherence to activity monitoring devices or smartphone applications for improving physical activity in adults with cardiovascular disease: a systematic review protocol. JBI Database of Systematic Reviews and Implementation Reports 2018;16(8):1634
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Kinsey AW, 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
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Ng K, Ryba T. The Quantified Athlete: Associations of Wearables for High School Athletes. Advances in Human-Computer Interaction 2018;2018:1
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Bianchi-Hayes J, Schoenfeld E, Cataldo R, Hou W, Messina C, Pati S. Combining Activity Trackers With Motivational Interviewing and Mutual Support to Increase Physical Activity in Parent-Adolescent Dyads: Longitudinal Observational Feasibility Study. JMIR Pediatrics and Parenting 2018;1(1):e3
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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
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Lyles AA, Amresh A, Huberty J, Todd M, Lee RE. A Mobile, Avatar-Based App for Improving Body Perceptions Among Adolescents: A Pilot Test. JMIR Serious Games 2017;5(1):e4
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. Effect of a School-Based Activity Tracker, Companion Social Website, and Text Messaging Intervention on Exercise, Fitness, and Physical Activity Self-Efficacy of Middle School Students. The Journal of School Nursing 2020;36(2):112
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Ridgers ND, Timperio A, Brown H, Ball K, Macfarlane S, Lai SK, Richards K, Mackintosh KA, McNarry MA, Foster M, Salmon J. Wearable Activity Tracker Use Among Australian Adolescents: Usability and Acceptability Study. JMIR mHealth and uHealth 2018;6(4):e86
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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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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
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Tully C, Mackey E, Aronow L, Monaghan M, Henderson C, Cogen F, Wang J, Streisand R. Parenting Intervention to Improve Nutrition and Physical Activity for Preschoolers with Type 1 Diabetes: A Feasibility Study. Journal of Pediatric Health Care 2018;32(6):548
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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
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Puri A, Kim B, Nguyen O, Stolee P, Tung J, Lee J. User Acceptance of Wrist-Worn Activity Trackers Among Community-Dwelling Older Adults: Mixed Method Study. JMIR mHealth and uHealth 2017;5(11):e173
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Firth J, Torous J, Carney R, Newby J, Cosco TD, Christensen H, Sarris J. Digital Technologies in the Treatment of Anxiety: Recent Innovations and Future Directions. Current Psychiatry Reports 2018;20(6)
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Wiesner M, Zowalla R, Suleder J, Westers M, Pobiruchin M. Technology Adoption, Motivational Aspects, and Privacy Concerns of Wearables in the German Running Community: Field Study. JMIR mHealth and uHealth 2018;6(12):e201
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Metos J, Gren L, Brusseau T, Moric E, O’Toole K, Mokhtari T, Buys S, Frost C. Adolescent girls’ reactions to nutrition and physical activity assessment tools and insight into lifestyle habits. Health Education Journal 2018;77(1):85
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Müller AM, Wang NX, Yao J, Tan CS, Low ICC, 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
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Cajita MI, Kline CE, Burke LE, Bigini EG, Imes CC. Feasible but Not Yet Efficacious: a Scoping Review of Wearable Activity Monitors in Interventions Targeting Physical Activity, Sedentary Behavior, and Sleep. Current Epidemiology Reports 2020;7(1):25
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Xie J, Wen D, Liang L, Jia Y, Gao L, Lei J. Evaluating the Validity of Current Mainstream Wearable Devices in Fitness Tracking Under Various Physical Activities: Comparative Study. JMIR mHealth and uHealth 2018;6(4):e94
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Nogic J, Thein PM, Cameron J, Mirzaee S, Ihdayhid A, Nasis A. The utility of personal activity trackers (Fitbit Charge 2) on exercise capacity in patients post acute coronary syndrome [UP-STEP ACS Trial]: a randomised controlled trial protocol. BMC Cardiovascular Disorders 2017;17(1)
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Sheldrick MPR, Maitland C, Mackintosh KA, Rosenburg M, Stratton G. Validity and reliability of the HomeSPACE-II instrument to assess the influence of the home physical environment on children’s physical activity and sedentary behaviour. International Journal of Health Promotion and Education 2021;59(2):108
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Phan TT, Barnini N, Xie S, Martinez A, Falini L, Abatemarco A, Waldron M, Benton JM, Frankenberry S, Coleman C, Nguyen L, Bo C, Datto GA, Werk LN. Feasibility of Using a Commercial Fitness Tracker as an Adjunct to Family-Based Weight Management Treatment: Pilot Randomized Trial. JMIR mHealth and uHealth 2018;6(11):e10523
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Christianson AJ, Shagena AA. Adapting the 2018 Physical Activity Guidelines in pediatric primary care. The Nurse Practitioner 2019;44(7):14
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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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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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Blackstone SR, Herrmann LK. Fitness Wearables and Exercise Dependence in College Women: Considerations for University Health Education Specialists. American Journal of Health Education 2020;51(4):225
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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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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
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Davergne T, Rakotozafiarison A, Servy H, Gossec L. Wearable Activity Trackers in the Management of Rheumatic Diseases: Where Are We in 2020?. Sensors 2020;20(17):4797
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Tang MSS, Moore K, McGavigan A, Clark RA, Ganesan AN. Effectiveness of Wearable Trackers on Physical Activity in Healthy Adults: Systematic Review and Meta-Analysis of Randomized Controlled Trials. JMIR mHealth and uHealth 2020;8(7):e15576
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Newberry RE, Dean DJ, Sayyah MD, Mittal VA. What prevents youth at clinical high risk for psychosis from engaging in physical activity? An examination of the barriers to physical activity. Schizophrenia Research 2018;201:400
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Wong CA, Madanay F, Ozer EM, Harris SK, Moore M, Master SO, Moreno M, Weitzman ER. Digital Health Technology to Enhance Adolescent and Young Adult Clinical Preventive Services: Affordances and Challenges. Journal of Adolescent Health 2020;67(2):S24
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. An Activity Tracker and Its Accompanying App as a Motivator for Increased Exercise and Better Sleeping Habits for Youths in Need of Social Care: Field Study. JMIR mHealth and uHealth 2018;6(12):e193
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Devine KA, Viola A, Levonyan‐Radloff K, Mackowski N, Bozzini B, Chandler A, Xu B, Ohman‐Strickland P, Mayans S, Farrar‐Anton A, Sahler OJZ, Masterson M, Manne S, Arent S. Feasibility of FitSurvivor: A technology‐enhanced group‐based fitness intervention for adolescent and young adult survivors of childhood cancer. Pediatric Blood & Cancer 2020;67(9)
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Zhang Z, Giordani B, Chen W. Fidelity and feasibility of a multicomponent physical activity intervention in a retirement community. Geriatric Nursing 2020;41(4):394
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Kerner C, Goodyear VA. The Motivational Impact of Wearable Healthy Lifestyle Technologies: A Self-determination Perspective on Fitbits With Adolescents. American Journal of Health Education 2017;48(5):287
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Veerubhotla A, Hong E, Knezevic S, Spungen A, Ding D. Estimation of Physical Activity Intensity in Spinal Cord Injury Using a Wrist-Worn ActiGraph Monitor. Archives of Physical Medicine and Rehabilitation 2020;101(9):1563
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Grym K, Niela-Vilén H, Ekholm E, Hamari L, Azimi I, Rahmani A, Liljeberg P, Löyttyniemi E, Axelin A. Feasibility of smart wristbands for continuous monitoring during pregnancy and one month after birth. BMC Pregnancy and Childbirth 2019;19(1)
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Pelizzo G, Guddo A, Puglisi A, De Silvestri A, Comparato C, Valenza M, Bordonaro E, Calcaterra V. Accuracy of a Wrist-Worn Heart Rate Sensing Device during Elective Pediatric Surgical Procedures. Children 2018;5(3):38
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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
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Lunsford-Avery JR, Keller C, Kollins SH, Krystal AD, Jackson L, Engelhard MM. Feasibility and Acceptability of Wearable Sleep Electroencephalogram Device Use in Adolescents: Observational Study. JMIR mHealth and uHealth 2020;8(10):e20590
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Jang MH, Ahn SJ, Lee JW, Rhee M, Chae D, Kim J, Shin MJ. Validity and Reliability of the Newly Developed Surface Electromyography Device for Measuring Muscle Activity during Voluntary Isometric Contraction. Computational and Mathematical Methods in Medicine 2018;2018:1
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Davergne T, Pallot A, Dechartres A, Fautrel B, Gossec L. Use of Wearable Activity Trackers to Improve Physical Activity Behavior in Patients With Rheumatic and Musculoskeletal Diseases: A Systematic Review and Meta‐Analysis. Arthritis Care & Research 2019;71(6):758
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Browne S, Kechadi M, O'Donnell S, Dow M, Tully L, Doyle G, O'Malley G. Mobile Health Apps in Pediatric Obesity Treatment: Process Outcomes From a Feasibility Study of a Multicomponent Intervention. JMIR mHealth and uHealth 2020;8(7):e16925
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Hartman SJ, Nelson SH, Weiner LS. 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
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Luque V, Feliu A, Escribano J, Ferré N, Flores G, Monné R, Gutiérrez-Marín D, Guillen N, Muñoz-Hernando J, Zaragoza-Jordana M, Gispert-Llauradó M, Rubio-Torrents C, Núñez-Roig M, Alcázar M, Ferré R, Basora J, Hsu P, Alegret-Basora C, Arasa F, Venables M, Singh P, Closa-Monasterolo R. The Obemat2.0 Study: A Clinical Trial of a Motivational Intervention for Childhood Obesity Treatment. Nutrients 2019;11(2):419
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Mulvaney SA, Vaala SE, Carroll RB, Williams LK, Lybarger CK, Schmidt DC, Dietrich MS, Laffel LM, Hood KK. A mobile app identifies momentary psychosocial and contextual factors related to mealtime self-management in adolescents with type 1 diabetes. Journal of the American Medical Informatics Association 2019;26(12):1627
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Wang T, Wang M, Yang L, Li Z, Loh XJ, Chen X. Cyber–Physiochemical Interfaces. Advanced Materials 2020;32(8)
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. Promoting Exercise and Activity in Children. Journal of Pediatric Surgical Nursing 2018;7(1):4
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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
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Faust L, Wang C, Hachen D, Lizardo O, Chawla NV. Physical Activity Trend eXtraction: A Framework for Extracting Moderate-Vigorous Physical Activity Trends From Wearable Fitness Tracker Data. JMIR mHealth and uHealth 2019;7(3):e11075
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Ringeval M, Wagner G, Denford J, Paré G, Kitsiou S. Fitbit-Based Interventions for Healthy Lifestyle Outcomes: Systematic Review and Meta-Analysis. Journal of Medical Internet Research 2020;22(10):e23954
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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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Jayawardene W, Huber L, McDonnell J, Curran L, Larson S, Dickinson S, Chen X, Pena E, Carson A, Johnston J. ‘Tracking Together’—Simultaneous Use of Human and Dog Activity Trackers: Protocol for a Factorial, Randomized Controlled Pilot Trial. International Journal of Environmental Research and Public Health 2021;18(4):1561
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Díaz-Quesada G, Puga-González E, Muñoz-Galiano IM. 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
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Chaabane S, Chaabna K, Doraiswamy S, Mamtani R, Cheema S. Barriers and Facilitators Associated with Physical Activity in the Middle East and North Africa Region: A Systematic Overview. International Journal of Environmental Research and Public Health 2021;18(4):1647
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Kruizinga MD, Heide NVD, Moll A, Zhuparris A, Yavuz Y, Kam MLD, Stuurman FE, Cohen AF, Driessen GJA, Harezlak J. Towards remote monitoring in pediatric care and clinical trials—Tolerability, repeatability and reference values of candidate digital endpoints derived from physical activity, heart rate and sleep in healthy children. PLOS ONE 2021;16(1):e0244877
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Bowen-Jallow K, Nunez-Lopez O, Wright A, Fuchs E, Ahn M, Lyons E, Jupiter D, Berry L, Suman O, Radhakrishnan RS, Glaser AM, Thompson DI, Ardern CI. Wearable Activity Tracking Device Use in an Adolescent Weight Management Clinic: A Randomized Controlled Pilot Trial. Journal of Obesity 2021;2021:1
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Katzan I, Schuster A, Kinzy T. Physical Activity Monitoring Using a Fitbit Device in Ischemic Stroke Patients: Prospective Cohort Feasibility Study. JMIR mHealth and uHealth 2021;9(1):e14494
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Hao Y, Ma X, Zhu Z, Cao Z. Validity of Wrist-Wearable Activity Devices for Estimating Physical Activity in Adolescents: Comparative Study. JMIR mHealth and uHealth 2021;9(1):e18320
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Chandrasekaran R, Katthula V, Moustakas E. Patterns of Use and Key Predictors for the Use of Wearable Health Care Devices by US Adults: Insights from a National Survey. Journal of Medical Internet Research 2020;22(10):e22443
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De Boer C, Ghomrawi H, Many B, Bouchard ME, Linton S, Figueroa A, Kwon S, Abdullah F. Utility of Wearable Sensors to Assess Postoperative Recovery in Pediatric Patients After Appendectomy. Journal of Surgical Research 2021;263:160
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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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Radman I, Sorić M, Mišigoj-Duraković M. Agreement between the SHAPES Questionnaire and a Multiple-Sensor Monitor in Assessing Physical Activity of Adolescents Using Categorial Approach: A Cross-Sectional Study. Sensors 2021;21(6):1986
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Strudwick G, McLay D, Lo B, Shin HD, Currie L, Thomson N, Maillet , Strong V, Miller A, Shen N, Campbell J. Development of a Resource Guide to Support the Engagement of Mental Health Providers and Patients with Digital Health Tools: A Multi-method Study (Preprint). Journal of Medical Internet Research 2020;
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Smuck M, Odonkor CA, Wilt JK, Schmidt N, Swiernik MA. The emerging clinical role of wearables: factors for successful implementation in healthcare. npj Digital Medicine 2021;4(1)
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Resnick B, Boltz M, Galik E, Fix S, Zhu S. Feasibility, Reliability, and Validity of the MotionWatch 8 to Evaluate Physical Activity Among Older Adults With and Without Cognitive Impairment in Assisted Living Settings. Journal of Aging and Physical Activity 2021;29(3):391
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Ummels D, Beekman E, Braun SM, Beurskens AJ. Using an Activity Tracker in Healthcare: Experiences of Healthcare Professionals and Patients. International Journal of Environmental Research and Public Health 2021;18(10):5147
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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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Mauldin K, Gieng J, Saarony D, Hu C. Performing nutrition assessment remotely via telehealth. Nutrition in Clinical Practice 2021;36(4):751
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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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Bardus M, Borgi C, El-Harakeh M, Gherbal T, Kharroubi S, Fares E. Exploring the Use of Mobile and Wearable Technology among University Student Athletes in Lebanon: A Cross-Sectional Study. Sensors 2021;21(13):4472
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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
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Amir NH, Dorobantu DM, Wadey CA, Caputo M, Stuart AG, Pieles GE, Williams CA. Exercise training in paediatric congenital heart disease: fit for purpose?. Archives of Disease in Childhood 2022;107(6):525
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Kracht CL, Hutchesson M, Ahmed M, Müller AM, Ashton LM, Brown HM, DeSmet A, Maher CA, Mauch CE, Vandelanotte C, Yin Z, Whatnall M, Short CE, Staiano AE. E‐&mHealth interventions targeting nutrition, physical activity, sedentary behavior, and/or obesity among children: A scoping review of systematic reviews and meta‐analyses. Obesity Reviews 2021;22(12)
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Lankhorst K, Sol M, van den Berg-Emons R, Horemans H, de Groot J. The Preliminary Criterion Validity of the Activ8 Activity Monitor to Measure Physical Activity in Youth Using a Wheelchair. Pediatric Physical Therapy 2021;33(4):268
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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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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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Bond SJ, Parikh N, Majmudar S, Pin S, Wang C, Willis L, Haga SB. A Systematic Review of the Scope of Study of mHealth Interventions for Wellness and Related Challenges in Pediatric and Young Adult Populations. Adolescent Health, Medicine and Therapeutics 2022;Volume 13:23
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Ha L, Wakefield CE, Mizrahi D, Diaz C, Cohn RJ, Signorelli C, Yacef K, Simar D. A Digital Educational Intervention With Wearable Activity Trackers to Support Health Behaviors Among Childhood Cancer Survivors: Pilot Feasibility and Acceptability Study. JMIR Cancer 2022;8(3):e38367
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Peng C, Zhao H, Zhang S. Determinants and Cross-National Moderators of Wearable Health Tracker Adoption: A Meta-Analysis. Sustainability 2021;13(23):13328
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Ma Z, Gao Q, Yang M. Adoption of Wearable Devices by Older People: Changes in Use Behaviors and User Experiences. International Journal of Human–Computer Interaction 2023;39(5):964
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Weston KL, Innerd A, Azevedo LB, Bock S, Batterham AM. Process Evaluation of Project FFAB (Fun Fast Activity Blasts): A Multi-Activity School-Based High-Intensity Interval Training Intervention. Frontiers in Sports and Active Living 2021;3
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Gorny AW, Chee WCD, Müller-Riemenschneider F. Active Use and Engagement in an mHealth Initiative Among Young Men With Obesity: Mixed Methods Study. JMIR Formative Research 2022;6(1):e33798
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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)
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Soltero EG, Lopez C, Hernandez E, O'Connor TM, Thompson D. Technology-Based Obesity Prevention Interventions Among Hispanic Adolescents in the United States: Scoping Review. JMIR Pediatrics and Parenting 2022;5(4):e39261
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