Published on in Vol 3, No 4 (2014): Oct-Dec

Validity and Usability of Low-Cost Accelerometers for Internet-Based Self-Monitoring of Physical Activity in Patients With Chronic Obstructive Pulmonary Disease

Validity and Usability of Low-Cost Accelerometers for Internet-Based Self-Monitoring of Physical Activity in Patients With Chronic Obstructive Pulmonary Disease

Validity and Usability of Low-Cost Accelerometers for Internet-Based Self-Monitoring of Physical Activity in Patients With Chronic Obstructive Pulmonary Disease

Journals

  1. Litman L, Rosen Z, Spierer D, Weinberger-Litman S, Goldschein A, Robinson J. Mobile Exercise Apps and Increased Leisure Time Exercise Activity: A Moderated Mediation Analysis of the Role of Self-Efficacy and Barriers. Journal of Medical Internet Research 2015;17(8):e195 View
  2. Arigo D. Promoting physical activity among women using wearable technology and online social connectivity: a feasibility study. Health Psychology and Behavioral Medicine 2015;3(1):391 View
  3. Gore S, Blackwood J, Guyette M, Alsalaheen B. Validity and Reliability of Accelerometers in Patients With COPD. Journal of Cardiopulmonary Rehabilitation and Prevention 2018;38(3):147 View
  4. Jacquemin C, Servy H, Molto A, Sellam J, Foltz V, Gandjbakhch F, Hudry C, Mitrovic S, Fautrel B, Gossec L. Physical Activity Assessment Using an Activity Tracker in Patients with Rheumatoid Arthritis and Axial Spondyloarthritis: Prospective Observational Study. JMIR mHealth and uHealth 2018;6(1):e1 View
  5. Zhang J, Calabrese C, Ding J, Liu M, Zhang B. Advantages and challenges in using mobile apps for field experiments: A systematic review and a case study. Mobile Media & Communication 2018;6(2):179 View
  6. van der Weegen S, Verwey R, Spreeuwenberg M, Tange H, van der Weijden T, de Witte L. It's LiFe! Mobile and Web-Based Monitoring and Feedback Tool Embedded in Primary Care Increases Physical Activity: A Cluster Randomized Controlled Trial. Journal of Medical Internet Research 2015;17(7):e184 View
  7. Garg S, Quick H, Kim E, Erickson M. Use of Activity Trackers in Orthopaedics. Journal of the American Academy of Orthopaedic Surgeons 2019;27(19):e859 View
  8. Gresham G, Hendifar A, Spiegel B, Neeman E, Tuli R, Rimel B, Figlin R, Meinert C, Piantadosi S, Shinde A. Wearable activity monitors to assess performance status and predict clinical outcomes in advanced cancer patients. npj Digital Medicine 2018;1(1) View
  9. Weatherall J, Paprocki Y, Meyer T, Kudel I, Witt E. Sleep Tracking and Exercise in Patients With Type 2 Diabetes Mellitus (Step-D): Pilot Study to Determine Correlations Between Fitbit Data and Patient-Reported Outcomes. JMIR mHealth and uHealth 2018;6(6):e131 View
  10. Cadmus-Bertram L, Marcus B, Patterson R, Parker B, Morey B. Use of the Fitbit to Measure Adherence to a Physical Activity Intervention Among Overweight or Obese, Postmenopausal Women: Self-Monitoring Trajectory During 16 Weeks. JMIR mHealth and uHealth 2015;3(4):e96 View
  11. McMahon S, Lewis B, Oakes M, Guan W, Wyman J, Rothman A. Older Adults’ Experiences Using a Commercially Available Monitor to Self-Track Their Physical Activity. JMIR mHealth and uHealth 2016;4(2):e35 View
  12. Kressler J, Koeplin-Day J, Muendle B, Rosby B, Santo E, Domingo A, Jan Y. Accuracy and precision of consumer-level activity monitors for stroke detection during wheelchair propulsion and arm ergometry. PLOS ONE 2018;13(2):e0191556 View
  13. Gresham G, Schrack J, Gresham L, Shinde A, Hendifar A, Tuli R, Rimel B, Figlin R, Meinert C, Piantadosi S. Wearable activity monitors in oncology trials: Current use of an emerging technology. Contemporary Clinical Trials 2018;64:13 View
  14. Daligadu J, Pollock C, Carlaw K, Chin M, Haynes A, Thevaraajah Kopal T, Tahsinul A, Walters K, Colella T. Validation of the Fitbit Flex in an Acute Post–Cardiac Surgery Patient Population. Physiotherapy Canada 2018;70(4):314 View
  15. Naslund J, Aschbrenner K, Bartels S. Wearable devices and smartphones for activity tracking among people with serious mental illness. Mental Health and Physical Activity 2016;10:10 View
  16. Ummels D, Beekman E, Theunissen K, Braun S, Beurskens A. Counting Steps in Activities of Daily Living in People With a Chronic Disease Using Nine Commercially Available Fitness Trackers: Cross-Sectional Validity Study. JMIR mHealth and uHealth 2018;6(4):e70 View
  17. Sabido Rangel J, Apolo-Arenas M, Montanero Fernández J, Caña-Pino A. Medición del gasto energético en pruebas submáximas de valoración funcional mediante acelerometría. Rehabilitación 2018;52(4):223 View
  18. MIDDELWEERD A, VAN DER PLOEG H, VAN HALTEREN A, TWISK J, BRUG J, TE VELDE S. A Validation Study of the Fitbit One in Daily Life Using Different Time Intervals. Medicine & Science in Sports & Exercise 2017;49(6):1270 View
  19. 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 View
  20. Bade B, Brooks M, Nietert S, Ulmer A, Thomas D, Nietert P, Scott J, Silvestri G. Assessing the Correlation Between Physical Activity and Quality of Life in Advanced Lung Cancer. Integrative Cancer Therapies 2018;17(1):73 View
  21. Powierza C, Clark M, Hughes J, Carneiro K, Mihalik J. Validation of a Self-Monitoring Tool for Use in Exercise Therapy. PM&R 2017;9(11):1077 View
  22. 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 View
  23. Hermsen S, Moons J, Kerkhof P, Wiekens C, De Groot M. Determinants for Sustained Use of an Activity Tracker: Observational Study. JMIR mHealth and uHealth 2017;5(10):e164 View
  24. Mercer K, Giangregorio L, Schneider E, Chilana P, Li M, Grindrod K. Acceptance of Commercially Available Wearable Activity Trackers Among Adults Aged Over 50 and With Chronic Illness: A Mixed-Methods Evaluation. JMIR mHealth and uHealth 2016;4(1):e7 View
  25. Lin W, Verma V, Lee M, Lin H, Lai C. Prediction of 30-Day Readmission for COPD Patients Using Accelerometer-Based Activity Monitoring. Sensors 2019;20(1):217 View
  26. Pol M, ter Riet G, van Hartingsveldt M, Kröse B, de Rooij S, Buurman B. Effectiveness of sensor monitoring in an occupational therapy rehabilitation program for older individuals after hip fracture, the SO-HIP trial: study protocol of a three-arm stepped wedge cluster randomized trial. BMC Health Services Research 2017;17(1) View
  27. Sehgal S, Small B, Highland K. Activity monitors in pulmonary disease. Respiratory Medicine 2019;151:81 View
  28. Della Mea V, Quattrin O, Parpinel M. A feasibility study on smartphone accelerometer-based recognition of household activities and influence of smartphone position. Informatics for Health and Social Care 2017;42(4):321 View
  29. Yingling L, Brooks A, Wallen G, Peters-Lawrence M, McClurkin M, Cooper-McCann R, Wiley Jr K, Mitchell V, Saygbe J, Johnson T, Curry R, Johnson A, Graham A, Graham L, Powell-Wiley T. Community Engagement to Optimize the Use of Web-Based and Wearable Technology in a Cardiovascular Health and Needs Assessment Study: A Mixed Methods Approach. JMIR mHealth and uHealth 2016;4(2):e38 View
  30. van der Weegen S, Verwey R, Spreeuwenberg M, Tange H, van der Weijden T, de Witte L. Technologie om de fysieke activiteit te verhogen. Huisarts en wetenschap 2016;59(6):248 View
  31. Schrager J, Shayne P, Wolf S, Das S, Patzer R, White M, Heron S. Assessing the Influence of a Fitbit Physical Activity Monitor on the Exercise Practices of Emergency Medicine Residents: A Pilot Study. JMIR mHealth and uHealth 2017;5(1):e2 View
  32. Kanejima Y, Kitamura M, Izawa K. Self-monitoring to increase physical activity in patients with cardiovascular disease: a systematic review and meta-analysis. Aging Clinical and Experimental Research 2019;31(2):163 View
  33. Kooiman T, Dontje M, Sprenger S, Krijnen W, van der Schans C, de Groot M. Reliability and validity of ten consumer activity trackers. BMC Sports Science, Medicine and Rehabilitation 2015;7(1) View
  34. O’Neill B, O’Shea O, McDonough S, McGarvey L, Bradbury I, Arden M, Troosters T, Cosgrove D, McManus T, McDonnell T, Bradley J. Clinician-Facilitated Physical Activity Intervention Versus Pulmonary Rehabilitation for Improving Physical Activity in COPD: A Feasibility Study. COPD: Journal of Chronic Obstructive Pulmonary Disease 2018;15(3):254 View
  35. Kim B, McKay S, Lee J. Consumer-Grade Wearable Device for Predicting Frailty in Canadian Home Care Service Clients: Prospective Observational Proof-of-Concept Study. Journal of Medical Internet Research 2020;22(9):e19732 View
  36. Chiauzzi E, Rodarte C, DasMahapatra P. Patient-centered activity monitoring in the self-management of chronic health conditions. BMC Medicine 2015;13(1) View
  37. Boeselt T, Spielmanns M, Nell C, Storre J, Windisch W, Magerhans L, Beutel B, Kenn K, Greulich T, Alter P, Vogelmeier C, Koczulla A, Fehrenbach H. Validity and Usability of Physical Activity Monitoring in Patients with Chronic Obstructive Pulmonary Disease (COPD). PLOS ONE 2016;11(6):e0157229 View
  38. Landry G, Falck R, Beets M, Liu-Ambrose T. Measuring physical activity in older adults: calibrating cut-points for the MotionWatch 8©. Frontiers in Aging Neuroscience 2015;7 View
  39. Feehan L, Geldman J, Sayre E, Park C, Ezzat A, Yoo J, Hamilton C, Li L. Accuracy of Fitbit Devices: Systematic Review and Narrative Syntheses of Quantitative Data. JMIR mHealth and uHealth 2018;6(8):e10527 View
  40. 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
  41. Kroll R, Boyd J, Maslove D. Accuracy of a Wrist-Worn Wearable Device for Monitoring Heart Rates in Hospital Inpatients: A Prospective Observational Study. Journal of Medical Internet Research 2016;18(9):e253 View
  42. Weaver A, Stutzman S, Supnet C, Olson D. Sleep quality, but not quantity, is associated with self-perceived minor error rates among emergency department nurses. International Emergency Nursing 2016;25:48 View
  43. Liu Y, Li H, Ding N, Wang N, Wen D. Functional Status Assessment of Patients With COPD. Medicine 2016;95(20):e3672 View
  44. Hargens T, Deyarmin K, Snyder K, Mihalik A, Sharpe L. Comparison of wrist-worn and hip-worn activity monitors under free living conditions. Journal of Medical Engineering & Technology 2017;41(3):200 View
  45. Sirard J, Masteller B, Freedson P, 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 View
  46. Alghamdi A, Alghamdi K, Jenkins R, Alghamdi M, Haris P. Impact of Ramadan on Physical Activity and Sleeping Patterns in Individuals with Type 2 Diabetes: The First Study Using Fitbit Device. Diabetes Therapy 2020;11(6):1331 View
  47. Evenson K, Goto M, Furberg R. Systematic review of the validity and reliability of consumer-wearable activity trackers. International Journal of Behavioral Nutrition and Physical Activity 2015;12(1) View
  48. 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 View
  49. Simmich J, Mandrusiak A, Smith S, Hartley N, Russell T. A Co-Designed Active Video Game for Physical Activity Promotion in People With Chronic Obstructive Pulmonary Disease: Pilot Trial. JMIR Serious Games 2021;9(1):e23069 View
  50. Fore R, Hart J, Choirat C, Thompson J, Lynch K, Laden F, Chavarro J, James P. Embedding Mobile Health Technology into the Nurses' Health Study 3 to Study Behavioral Risk Factors for Cancer. Cancer Epidemiology Biomarkers & Prevention 2020;29(4):736 View
  51. Geelen S, Giele B, Nollet F, Engelbert R, van der Schaaf M. Improving Physical Activity in Adults Admitted to a Hospital With Interventions Developed and Implemented Through Cocreation: Protocol for a Pre-Post Embedded Mixed Methods Study. JMIR Research Protocols 2020;9(11):e19000 View
  52. 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 View
  53. Clemenza K, Weiss S, Cheslack K, Kandel D, Kandel E, Levine A. Social isolation is closely linked to a marked reduction in physical activity in male mice. Journal of Neuroscience Research 2021;99(4):1099 View
  54. Haukeland-Parker S, Jervan Ø, Johannessen H, Gleditsch J, Stavem K, Steine K, Spruit M, Holst R, Tavoly M, Klok F, Ghanima W. Pulmonary rehabilitation to improve physical capacity, dyspnea, and quality of life following pulmonary embolism (the PeRehab study): study protocol for a two-center randomized controlled trial. Trials 2021;22(1) View
  55. Robinson A, Oksuz U, Slight R, Slight S, Husband A. Digital and Mobile Technologies to Promote Physical Health Behavior Change and Provide Psychological Support for Patients Undergoing Elective Surgery: Meta-Ethnography and Systematic Review. JMIR mHealth and uHealth 2020;8(12):e19237 View
  56. Bonci T, Keogh A, Del Din S, Scott K, Mazzà C. An Objective Methodology for the Selection of a Device for Continuous Mobility Assessment. Sensors 2020;20(22):6509 View
  57. Ferguson C, Hickman L, Turkmani S, Breen P, Gargiulo G, Inglis S. “Wearables only work on patients that wear them”: Barriers and facilitators to the adoption of wearable cardiac monitoring technologies. Cardiovascular Digital Health Journal 2021;2(2):137 View

Books/Policy Documents

  1. Zargari Marandi R, Madeleine P, Vuillerme N, Samani A. World Congress on Medical Physics and Biomedical Engineering 2018. View
  2. Schwartz M, Oppold P, Hancock P. Critical Issues Impacting Science, Technology, Society (STS), and Our Future. View
  3. James P, Redline S. Strategies for Team Science Success. View
  4. Marandi R, Madeleine P, Vuillerme N, Omland Ø, Samani A. Proceedings of the 20th Congress of the International Ergonomics Association (IEA 2018). View