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Citing this Article

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Published on 07.09.16 in Vol 18, No 9 (2016): September

This paper is in the following e-collection/theme issue:

Works citing "Estimating Physical Activity and Sedentary Behavior in a Free-Living Context: A Pragmatic Comparison of Consumer-Based Activity Trackers and ActiGraph Accelerometry"

Sjaan R Gomersall, Norman Ng, Nicola W Burton, Toby G Pavey, Nicholas D Gilson, Wendy J Brown

J Med Internet Res 2016 (Sep 07); 18(9):e239 

According to Crossref, the following articles are citing this article (DOI 10.2196/jmir.5531):

(note that this is only a small subset of citations)

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  3. Brewer W, Swanson BT, Roddey TS, Adewale H, Ashmore C, Frerich J, Perrin C, Ortiz A. A pilot study to determine the effect of one physical therapy session on physical activity levels for individuals with chronic low back pain. BMC Research Notes 2017;10(1)
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  4. Wang Y, Gangwani R, Kannan L, Schenone A, Wang E, Bhatt T. Can Smartphone-Derived Step Data Predict Laboratory-Induced Real-Life Like Fall-Risk in Community- Dwelling Older Adults?. Frontiers in Sports and Active Living 2020;2
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  5. Samson SI, Konty K, Lee W, Quisel T, Foschini L, Kerr D, Liska J, Mills H, Hollingsworth R, Greenberg M, Beal AC. Quantifying the Impact of Influenza Among Persons With Type 2 Diabetes Mellitus: A New Approach to Determine Medical and Physical Activity Impact. Journal of Diabetes Science and Technology 2021;15(1):44
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  7. Piau A, Wild K, Mattek N, Kaye J. Current State of Digital Biomarker Technologies for Real-Life, Home-Based Monitoring of Cognitive Function for Mild Cognitive Impairment to Mild Alzheimer Disease and Implications for Clinical Care: Systematic Review. Journal of Medical Internet Research 2019;21(8):e12785
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  8. Moore CE, Tsakirides C, Rutherford Z, Swainson MG, Birch KM, Ibeggazene S, Ispoglou T. Dietary education provision within a cardiac rehabilitation programme in the UK: a pilot study. British Journal of Cardiac Nursing 2020;15(8):1
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  9. Berninger N, ten Hoor G, Plasqui G. Validation of the VitaBit Sit–Stand Tracker: Detecting Sitting, Standing, and Activity Patterns. Sensors 2018;18(3):877
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  10. Batsis JA, Naslund JA, Gill LE, Masutani RK, Agarwal N, Bartels SJ. Use of a Wearable Activity Device in Rural Older Obese Adults. Gerontology and Geriatric Medicine 2016;2:233372141667807
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  11. Abt G, Bray J, Benson AC. Measuring Moderate-Intensity Exercise with the Apple Watch: Validation Study. JMIR Cardio 2018;2(1):e6
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  12. . Wearable oxygen uptake and energy expenditure monitors. Physiological Measurement 2019;40(8):08TR01
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  13. Semanik P, Lee J, Pellegrini CA, Song J, Dunlop DD, Chang RW. Comparison of Physical Activity Measures Derived From the Fitbit Flex and the ActiGraph GT3X+ in an Employee Population With Chronic Knee Symptoms. ACR Open Rheumatology 2020;2(1):48
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  14. Takemoto M, Lewars B, Hurst S, Crist K, Nebeker C, Madanat H, Nichols J, Rosenberg DE, Kerr J. Participants’ Perceptions on the Use of Wearable Devices to Reduce Sitting Time: Qualitative Analysis. JMIR mHealth and uHealth 2018;6(3):e73
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  15. 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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  16. Smith JD, Guerra G, Burkholder BG. The validity and accuracy of wrist-worn activity monitors in lower-limb prosthesis users. Disability and Rehabilitation 2020;42(22):3182
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  17. Degroote L, Hamerlinck G, Poels K, Maher C, Crombez G, De Bourdeaudhuij I, Vandendriessche A, Curtis RG, DeSmet A. Low-Cost Consumer-Based Trackers to Measure Physical Activity and Sleep Duration Among Adults in Free-Living Conditions: Validation Study. JMIR mHealth and uHealth 2020;8(5):e16674
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  18. Siddall AG, Powell SD, Needham‐Beck SC, Edwards VC, Thompson JE, Kefyalew SS, Singh PA, Orford ER, Venables MC, Jackson S, Greeves JP, Blacker SD, Myers SD. Validity of energy expenditure estimation methods during 10 days of military training. Scandinavian Journal of Medicine & Science in Sports 2019;29(9):1313
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  19. Wieringa FP, Broers NJH, Kooman JP, Van Der Sande FM, Van Hoof C. Wearable sensors: can they benefit patients with chronic kidney disease?. Expert Review of Medical Devices 2017;14(7):505
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  20. 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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  21. Sirard JR, Masteller B, Freedson PS, Mendoza A, Hickey A. Validation of Youth Oriented Activity Trackers: Comprehensive Laboratory- and Field-Based Validation. Journal of Medical Internet Research 2017;19(7):e250
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  22. Bort-Roig J, Chirveches-Pérez E, Garcia-Cuyàs F, Dowd KP, 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
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  23. 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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  24. Arunachalam D, Heit MH. Impact of postoperative instructions on physical activity following pelvic reconstructive surgery: a randomized controlled trial. International Urogynecology Journal 2020;31(7):1337
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  25. Graham H, Prue-Owens K, Kirby J, Ramesh M. Systematic Review of Interventions Designed to Maintain or Increase Physical Activity Post-Cardiac Rehabilitation Phase II. Rehabilitation Process and Outcome 2020;9:117957272094183
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  26. Zanevskyy I, Bodnarchuk O. A Model of Pedometer Determined Physical Activity in Primary School Children. Physical Education Theory and Methodology 2020;20(1):18
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  27. MIDDELWEERD A, VAN DER PLOEG HP, VAN HALTEREN A, TWISK JWR, BRUG J, TE VELDE SJ. A Validation Study of the Fitbit One in Daily Life Using Different Time Intervals. Medicine & Science in Sports & Exercise 2017;49(6):1270
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  28. 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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  29. Feehan LM, Geldman J, Sayre EC, Park C, Ezzat AM, Yoo JY, Hamilton CB, Li LC. Accuracy of Fitbit Devices: Systematic Review and Narrative Syntheses of Quantitative Data. JMIR mHealth and uHealth 2018;6(8):e10527
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  30. Laeremans M, Dons E, Avila-Palencia I, Carrasco-Turigas G, Orjuela JP, Anaya E, Brand C, Cole-Hunter T, de Nazelle A, Götschi T, Kahlmeier S, Nieuwenhuijsen M, Standaert A, De Boever P, Int Panis L, Harezlak J. Physical activity and sedentary behaviour in daily life: A comparative analysis of the Global Physical Activity Questionnaire (GPAQ) and the SenseWear armband. PLOS ONE 2017;12(5):e0177765
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  31. Takemoto M, Manini TM, Rosenberg DE, Lazar A, Zlatar ZZ, Das SK, Kerr J. Diet and Activity Assessments and Interventions Using Technology in Older Adults. American Journal of Preventive Medicine 2018;55(4):e105
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  32. Middelweerd A, Mollee J, Klein MM, Manzoor A, Brug J, te Velde SJ. The Use and Effects of an App-Based Physical Activity Intervention “Active2Gether” in Young Adults: Quasi-Experimental Trial. JMIR Formative Research 2020;4(1):e12538
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  33. Wu HS, Gal R, van Sleeuwen NC, Brombacher AC, IJsselsteijn WA, May AM, Monninkhof EM. Breast Cancer Survivors’ Experiences With an Activity Tracker Integrated Into a Supervised Exercise Program: Qualitative Study. JMIR mHealth and uHealth 2019;7(2):e10820
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  34. Mendoza AR, Lyden K, Sirard J, Staudenmayer J, Tudor-Locke C, Freedson PS. Step Count and Sedentary Time Validation of Consumer Activity Trackers and a Pedometer in Free-Living Settings. Journal for the Measurement of Physical Behaviour 2019;2(2):109
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  35. 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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  36. Edwardson CL, Davies M, Khunti K, Yates T, Rowlands AV. Steps per Day Measured by Consumer Activity Trackers Worn at the Non-Dominant and Dominant Wrist Relative to a Waist-Worn Pedometer. Journal for the Measurement of Physical Behaviour 2018;1(1):2
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  37. Sember V, Meh K, Sorić M, Starc G, Rocha P, Jurak G. Validity and Reliability of International Physical Activity Questionnaires for Adults across EU Countries: Systematic Review and Meta Analysis. International Journal of Environmental Research and Public Health 2020;17(19):7161
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  38. Ward WH, Meeker CR, Handorf E, Hill MV, Einarson M, Alpaugh RK, Holden TL, Astsaturov I, Denlinger CS, Hall MJ, Reddy SS, Sigurdson ER, Dotan E, Zibelman M, Meyer JE, Farma JM, 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
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  39. Gorzelitz J, Farber C, Gangnon R, Cadmus-Bertram L. Accuracy of Wearable Trackers for Measuring Moderate- to Vigorous-Intensity Physical Activity: A Systematic Review and Meta-Analysis. Journal for the Measurement of Physical Behaviour 2020;3(4):346
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  40. Shapiro A, Bradshaw B, Landes S, Kammann P, Bois De Fer B, Lee W, Lange R. A novel digital approach to describe real world outcomes among patients with constipation. npj Digital Medicine 2021;4(1)
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  41. Sjöberg V, Westergren J, Monnier A, Lo Martire R, Hagströmer M, Äng BO, Vixner L. Wrist-Worn Activity Trackers in Laboratory and Free-Living Settings for Patients With Chronic Pain: Criterion Validity Study. JMIR mHealth and uHealth 2021;9(1):e24806
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  42. Assawasaksakul N, Sirichana W, Joosri W, Kulaputana O, Eksakulkla S, Ketanun C, Kittiskulnam P, Chantadisai M, Takkavatakarn K, Susantitaphong P, Praditpornsilpa K, Eiam-Ong S, Tiranathanagul K. Effects of intradialytic cycling exercise on daily physical activity, physical fitness, body composition, and clinical parameters in high-volume online hemodiafiltration patients: a pilot randomized-controlled trial. International Urology and Nephrology 2021;53(2):359
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  43. Zhuo LX, Macedo LG. Feasibility and Convergent Validity of an Activity Tracker for Low Back Pain Within a Clinical Study: Cross-sectional Study. JMIR Rehabilitation and Assistive Technologies 2021;8(1):e18942
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  44. Piau A, Steinmeyer Z, Charlon Y, Courbet L, Rialle V, Lepage B, Campo E, Nourhashemi F. A Smart Shoe Insole to Monitor Frail Older Adults’ Walking Speed: Results of Two Evaluation Phases Completed in a Living Lab and Through a 12-Week Pilot Study. JMIR mHealth and uHealth 2021;9(7):e15641
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  45. Helbrich H, Braun M, Hanusch C, Mueller G, Falk H, Flondor R, Harbeck N, Hermelink K, Wuerstlein R, Keim S, Neufeld F, Steins-Loeber S, Haertl K. Congruence and trajectories of device-measured and self-reported physical activity during therapy for early breast cancer. Breast Cancer Research and Treatment 2021;188(2):351
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  46. 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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  47. Pellegrini CA, Lee J, DeVivo KE, Harpine CE, Del Gaizo DJ, Wilcox S. Reducing sedentary time using an innovative mHealth intervention among patients with total knee replacement: Rationale and study protocol. Contemporary Clinical Trials Communications 2021;22:100810
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  48. Elavsky S, Klocek A, Knapova L, Smahelova M, Smahel D, Cimler R, Kuhnova J. Feasibility of Real-time Behavior Monitoring Via Mobile Technology in Czech Adults Aged 50 Years and Above: 12-Week Study With Ecological Momentary Assessment. JMIR Aging 2021;4(4):e15220
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  49. Vandoni M, Carnevale Pellino V, Dell'Anna S, Ricagno E, Liberali G, Bonfanti C, Correale L. Physical activity monitoring devices: energy expenditure comparison in a setting of free-living activities. International Journal of Physical Education, Fitness and Sports 2019;:45
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  50. Berry A, Drake RJ, Butcher I, Yung AR. Examining the feasibility, acceptability, validity and reliability of physical activity, sedentary behaviour and sleep measures in people with schizophrenia. Mental Health and Physical Activity 2021;21:100415
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  51. Carvalho AS, Bohn L, Abdalla PP, Ramos NC, Borges FG, Mota J, Machado DRL. The Associations of Objectively Measured Physical Activity, Fundamental Motor Skills and Time in Sedentary Behavior in Children: A Cross-Sectional Study. Perceptual and Motor Skills 2021;128(6):2507
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  52. Saygin D, Rockette-Wagner B, Oddis C, Neiman N, Koontz D, Moghadam-Kia S, Aggarwal R. Consumer-based activity trackers in evaluation of physical activity in myositis patients. Rheumatology 2022;61(7):2951
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  53. Nelson RK, Hasanaj K, Connolly G, Millen L, Muench J, Bidolli NS, Preston MA, Montoye AH. Comparison of Wrist- and Hip-Worn Activity Monitors When Meeting Step Guidelines. Preventing Chronic Disease 2022;19
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  54. Veerubhotla A, Krantz A, Ibironke O, Pilkar R. Wearable devices for tracking physical activity in the community after an acquired brain injury: A systematic review. PM&R 2022;14(10):1207
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  55. Giurgiu M, Timm I, Becker M, Schmidt S, Wunsch K, Nissen R, Davidovski D, Bussmann JBJ, Nigg CR, Reichert M, Ebner-Priemer UW, Woll A, von Haaren-Mack B. Quality Evaluation of Free-living Validation Studies for the Assessment of 24-Hour Physical Behavior in Adults via Wearables: Systematic Review. JMIR mHealth and uHealth 2022;10(6):e36377
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  56. Tomaszewski B, Savage MN, Hume K. Examining physical activity and quality of life in adults with autism spectrum disorder and intellectual disability. Journal of Intellectual Disabilities 2022;26(4):1075
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  57. Yang C, Wang S, Wang W, Belcher BR, Dunton GF. Day-level associations of physical activity and sedentary time in mother–child dyads across three years: a multi-wave longitudinal study using accelerometers. Journal of Behavioral Medicine 2022;45(5):702
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  58. Mehrabani G, Gross DP, Aminian S, Manns PJ. Comparison of Fitbit One and ActivPAL3TM in Adults With Multiple Sclerosis in a Free-Living Environment. Journal for the Measurement of Physical Behaviour 2021;4(3):257
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  59. Matlary RED, Holme PA, Glosli H, Rueegg CS, Grydeland M. Comparison of free‐living physical activity measurements between ActiGraph GT3X‐BT and Fitbit Charge 3 in young people with haemophilia. Haemophilia 2022;28(6)
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  60. Ryan DJ, Ross MH, Simmich J, Ng N, Burton NW, Gilson N, Pavey T, Brown WJ, Gomersall SR. TRACK & ACT: a pragmatic randomised controlled trial exploring the comparative effectiveness of pedometers and activity trackers for changing physical activity and sedentary behaviour in inactive individuals. Journal of Activity, Sedentary and Sleep Behaviors 2023;2(1)
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  61. Vranceanu A, Choukas NR, Rochon EA, Duarte B, Pietrzykowski MO, McDermott K, Hooker JE, Kulich R, Quiroz YT, Parker RA, Macklin EA, Ritchie C, Mace RA. Addressing the Chronic Pain–Early Cognitive Decline Comorbidity Among Older Adults: Protocol for the Active Brains Remote Efficacy Trial. JMIR Research Protocols 2023;12:e47319
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  62. Attard C, Kerr-Cumbo R, Muscat-Inglott M, Darmanin M, Schembri H. A Study of the Effects of a Structured Daily Physical Activity Intervention in Schools in Malta. Education Sciences 2024;14(2):122
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According to Crossref, the following books are citing this article (DOI 10.2196/jmir.5531):

  1. Weber A, Schmid D, Leitzmann MF. Handbook of Epidemiology. 2023. Chapter 67-1:1
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  2. Oyeleye M, Chen T, Su P, Antoniou G. Advances in Computational Intelligence Systems. 2024. Chapter 16:195
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