Published on 11.08.17 in Vol 5, No 8 (2017): August
Works citing "How Accurate Is Your Activity Tracker? A Comparative Study of Step Counts in Low-Intensity Physical Activities"
According to Crossref, the following articles are citing this article (DOI 10.2196/mhealth.6321):
(note that this is only a small subset of citations)
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Bahadori S, Collard S, Williams JM, 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
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Poojary J, Arora E, Britto A, Polen Z, Arena R, Babu AS. Validity of Mobile-Based Technology vs Direct Observation in Measuring Number of Steps and Distance Walked in 6 Minutes. Mayo Clinic Proceedings 2018;93(12):1873
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Kamišalić A, Fister I, Turkanović M, Karakatič S. Sensors and Functionalities of Non-Invasive Wrist-Wearable Devices: A Review. Sensors 2018;18(6):1714
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Rauwerdink A, Jansen M, de Borgie CAJM, Bemelman WA, Daams F, Schijven MP, Buskens CJ. Improving enhanced recovery after surgery (ERAS): ERAS APPtimize study protocol, a randomized controlled trial investigating the effect of a patient-centred mobile application on patient participation in colorectal surgery. BMC Surgery 2019;19(1)
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Schwab M, Brindl N, Studier-Fischer A, Tu T, Gsenger J, Pilgrim M, Friedrich M, Frey P, Achilles C, Leuck A, Bürgel T, Feisst M, Klose C, Tenckhoff S, Dörr-Harim C, Mihaljevic AL. Postoperative complications and mobilisation following major abdominal surgery with vs. without fitness tracker-based feedback (EXPELLIARMUS): study protocol for a student-led multicentre randomised controlled trial (CHIR-Net SIGMA study group). Trials 2020;21(1)
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Modena BD, Bellahsen O, Nikzad N, Chieh A, Parikh N, Dufek DM, Ebner G, Topol EJ, Steinhubl S. Advanced and Accurate Mobile Health Tracking Devices Record New Cardiac Vital Signs. Hypertension 2018;72(2):503
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Tedesco S, Sica M, Ancillao A, Timmons S, Barton J, O’Flynn B, Najafi B. Accuracy of consumer-level and research-grade activity trackers in ambulatory settings in older adults. PLOS ONE 2019;14(5):e0216891
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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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Massouh F, Martin R, Chan B, Ma J, Patel V, Geary MP, Laffey JG, Wijeysundera DN, Abdallah FW. Is Activity Tracker–Measured Ambulation an Accurate and Reliable Determinant of Postoperative Quality of Recovery? A Prospective Cohort Validation Study. Anesthesia & Analgesia 2019;129(4):1144
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Fuller D, Colwell E, Low J, Orychock K, Tobin MA, Simango B, Buote R, Van Heerden D, Luan H, Cullen K, Slade L, Taylor NGA. Reliability and Validity of Commercially Available Wearable Devices for Measuring Steps, Energy Expenditure, and Heart Rate: Systematic Review. JMIR mHealth and uHealth 2020;8(9):e18694
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Budig M, Höltke V, Keiner M. Accuracy of optical heart rate measurement and distance measurement of a fitness tracker and their consequential use in sports. German Journal of Exercise and Sport Research 2019;49(4):402
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Yilmaz T, Foster R, Hao Y. Radio-Frequency and Microwave Techniques for Non-Invasive Measurement of Blood Glucose Levels. Diagnostics 2019;9(1):6
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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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Henriksen A, Haugen Mikalsen M, Woldaregay AZ, Muzny M, Hartvigsen G, Hopstock LA, 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
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Van der Walt N, Salmon LJ, Gooden B, Lyons MC, O'Sullivan M, Martina K, Pinczewski LA, Roe JP. Feedback From Activity Trackers Improves Daily Step Count After Knee and Hip Arthroplasty: A Randomized Controlled Trial. The Journal of Arthroplasty 2018;33(11):3422
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Fellger A, Sprint G, Weeks D, Crooks E, Cook DJ. Wearable Device-Independent Next Day Activity and Next Night Sleep Prediction for Rehabilitation Populations. IEEE Journal of Translational Engineering in Health and Medicine 2020;8:1
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Shahrokni A, Maggiore RJ, Ghassemzadeh H. New technologies in geriatric oncology care. Journal of Geriatric Oncology 2018;9(6):687
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Shin G, Jarrahi MH, 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
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Shahrokni A, Alexander K. What will perioperative geriatric assessment for older cancer patients look like in 2025? Advantages and limitations of new technologies in geriatric assessment. European Journal of Surgical Oncology 2020;46(3):305
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Mohammadi R, Atif M, Centi AJ, Agboola S, Jethwani K, Kvedar J, Kamarthi S. Neural Network–Based Algorithm for Adjusting Activity Targets to Sustain Exercise Engagement Among People Using Activity Trackers: Retrospective Observation and Algorithm Development Study. JMIR mHealth and uHealth 2020;8(9):e18142
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Lynn R, Pfitzer R, Rogers RR, Ballmann CG, Williams TD, Marshall MR. Step-Counting Validity of Wrist-Worn Activity Monitors During Activities With Fixed Upper Extremities. Journal for the Measurement of Physical Behaviour 2020;3(3):197
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Nanda S, Hurt RT, Croghan IT, Mundi MS, Gifford SL, Schroeder DR, Fischer KM, Bonnes SL. Improving Physical Activity and Body Composition in a Medical Workplace Using Brief Goal Setting. Mayo Clinic Proceedings: Innovations, Quality & Outcomes 2019;3(4):495
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Alinia P, Fallahzadeh R, Connolly CP, Ghasemzadeh H. ParaLabel: Autonomous Parameter Learning for Cross-Domain Step Counting in Wearable Sensors. IEEE Sensors Journal 2020;20(23):13867
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Johnston W, Judice PB, Molina García P, Mühlen JM, Lykke Skovgaard E, Stang J, Schumann M, Cheng S, Bloch W, Brønd JC, Ekelund U, Grøntved A, Caulfield B, Ortega FB, Sardinha LB. Recommendations for determining the validity of consumer wearable and smartphone step count: expert statement and checklist of the INTERLIVE network. British Journal of Sports Medicine 2021;55(14):780
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Merlin M, de Oliveira HH, Passos MEP, Momesso CM, dos Santos de Oliveira LC, Santana JE, Levada-Pires AC, Hatanaka E, Massao-Hirabara S, Guaré R, Cury-Boaventura MF, Pithon-Curi TC, Gorjão R. Relationship between children physical activity, inflammatory mediators and lymphocyte activation: possible impact of social isolation (COVID-19). Sport Sciences for Health 2021;17(2):431
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Weisberg A, Campelo AM, Bhaidani T, Katz L. Physical Activity Tracking Wristbands for Use in Research With Older Adults: An Overview and Recommendations. Journal for the Measurement of Physical Behaviour 2020;3(4):265
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Jung S, Michaud M, Oudre L, Dorveaux E, Gorintin L, Vayatis N, Ricard D. The Use of Inertial Measurement Units for the Study of Free Living Environment Activity Assessment: A Literature Review. Sensors 2020;20(19):5625
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Hartung V, Sarshar M, Karle V, Shammas L, Rashid A, Roullier P, Eilers C, Mäurer M, Flachenecker P, Pfeifer K, Tallner A. Validity of Consumer Activity Monitors and an Algorithm Using Smartphone Data for Measuring Steps during Different Activity Types. International Journal of Environmental Research and Public Health 2020;17(24):9314
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Carlin T, Vuillerme N. Step and Distance Measurement From a Low-Cost Consumer-Based Hip and Wrist Activity Monitor: Protocol for a Validity and Reliability Assessment. JMIR Research Protocols 2021;10(1):e21262
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Kelly R, Jones S, Price B, Katz D, McCormick C, Pearce O. Measuring Daily Compliance With Physical Activity Tracking in Ambulatory Surgery Patients: Comparative Analysis of Five Compliance Criteria. JMIR mHealth and uHealth 2021;9(1):e22846
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Chung W, De Vos-Jakobs S, Rivadeneira F, Bierma-Zeinstra S, Waarsing J. The association of BMI and physical activity on acetabular dysplasia in children. Osteoarthritis and Cartilage 2021;29(1):50
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Bai Y, Tompkins C, Gell N, Dione D, Zhang T, Byun W, Bergman P. Comprehensive comparison of Apple Watch and Fitbit monitors in a free-living setting. PLOS ONE 2021;16(5):e0251975
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Nelson BW, Flannery JE, Flournoy J, Duell N, Prinstein MJ, Telzer E. Concurrent and prospective associations between fitbit wearable‐derived RDoC arousal and regulatory constructs and adolescent internalizing symptoms. Journal of Child Psychology and Psychiatry 2022;63(3):282
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van der Linden MJW, Nahar van Venrooij LMW, Verdaasdonk EGG. Personal Devices to Monitor Physical Activity and Nutritional Intake After Colorectal Cancer Surgery: Feasibility Study. JMIR Perioperative Medicine 2022;5(1):e40352
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Jovanovic M, Mitrov G, Zdravevski E, Lameski P, Colantonio S, Kampel M, Tellioglu H, Florez-Revuelta F. Ambient Assisted Living: Scoping Review of Artificial Intelligence Models, Domains, Technology, and Concerns. Journal of Medical Internet Research 2022;24(11):e36553
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Ahmed A, Aziz S, Qidwai U, Farooq F, Shan J, Subramanian M, Chouchane L, EINatour R, Abd-Alrazaq A, Pandas S, Sheikh J. Wearable Artificial Intelligence for Assessing Physical Activity in High School Children. Sustainability 2022;15(1):638
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Van Laerhoven K, Hoelzemann A, Pahmeier I, Teti A, Gabrys L. Validation of an open-source ambulatory assessment system in support of replicable activity studies. German Journal of Exercise and Sport Research 2022;52(2):262
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Babaei N, Hannani N, Dabanloo NJ, Bahadori S. A Systematic Review of the Use of Commercial Wearable Activity Trackers for Monitoring Recovery in Individuals Undergoing Total Hip Replacement Surgery. Cyborg and Bionic Systems 2022;2022
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Marmor MT, Grimm B, Hanflik AM, Richter PH, Sivananthan S, Yarboro SR, Braun BJ. Use of Wearable Technology to Measure Activity in Orthopaedic Trauma Patients: A Systematic Review. Indian Journal of Orthopaedics 2022;56(7):1112
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Milne SC, Kim SH, Murphy A, Larkindale J, Farmer J, Malapira R, Danoudis M, Shaw J, Ramakrishnan T, Rasouli F, Yiu EM, Georgiou-Karistianis N, Tai G, Zesiewicz T, Delatycki MB, Corben LA. The Responsiveness of Gait and Balance Outcomes to Disease Progression in Friedreich Ataxia. The Cerebellum 2021;21(6):963
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Holubová A, Malá E, Hoidekrová K, Pětioký J, Ďuriš A, Mužík J. The Accuracy of Commercially Available Fitness Trackers in Patients after Stroke. Sensors 2022;22(19):7392
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Attig C, Franke T. Why Do People Abandon Activity Trackers? The Role of User Diversity in Discontinued Use. International Journal of Human–Computer Interaction 2023;39(8):1662
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Park S, Marcotte RT, Toth LP, Paulus P, Lauricella LP, Kim AH, Crouter SE, Springer CM, Staudenmayer JW, Bassett DR. Free-Living Validation and Harmonization of 10 Wearable Step Count Monitors. Translational Journal of the American College of Sports Medicine 2021;6(4)
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Parikh RB, Ferrell W, Wakim J, Williamson J, Khan N, Kopinsky M, Balachandran M, Gabriel PE, Zhang Y, Schuchter LM, Shulman LN, Chen J, Patel MS, Manz CR. Patient and clinician nudges to improve symptom management in advanced cancer using patient-generated health data: study protocol for the PROStep randomised controlled trial. BMJ Open 2022;12(5):e054675
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De Groef A, Asnong A, Blondeel A, Ginis P, Nieuwboer A, De Vrieze T, Devoogdt N, Troosters T, Demeyer H, Geraerts I. Accuracy of consumer-based activity trackers as measuring tool and coaching device in breast and colorectal cancer survivors. Supportive Care in Cancer 2023;31(10)
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Meier M, Holz C. BMAR. Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies 2023;7(2):1
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Miljanovic Damjanovic V, Obradovic Salcin L, Ostojic D, Ostojic L, Gilic B, Geets Kesic M, Uzicanin E, Sekulic D. Exploring Factors Associated with Physical Activity in the Elderly: A Cross-Sectional Study during the COVID-19 Pandemic. Behavioral Sciences 2024;14(1):62
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