Published on in Vol 3, No 2 (2019): Apr-Jun

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/11489, first published .
Measuring Free-Living Physical Activity With Three Commercially Available Activity Monitors for Telemonitoring Purposes: Validation Study

Measuring Free-Living Physical Activity With Three Commercially Available Activity Monitors for Telemonitoring Purposes: Validation Study

Measuring Free-Living Physical Activity With Three Commercially Available Activity Monitors for Telemonitoring Purposes: Validation Study

Journals

  1. Fuller D, Colwell E, Low J, Orychock K, Tobin M, Simango B, Buote R, Van Heerden D, Luan H, Cullen K, Slade L, Taylor N. 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 View
  2. Jim H, Hoogland A, Brownstein N, Barata A, Dicker A, Knoop H, Gonzalez B, Perkins R, Rollison D, Gilbert S, Nanda R, Berglund A, Mitchell R, Johnstone P. Innovations in research and clinical care using patient‐generated health data. CA: A Cancer Journal for Clinicians 2020;70(3):182 View
  3. Fukuda T, Tanaka M, Yamazaki M, Marunaka Y, Fukui M. Standard medical nutrition therapy of 25 kcal/kg ideal bodyweight/day often does not reach even resting energy expenditure for patients with type 2 diabetes. Journal of Diabetes Investigation 2020;11(3):626 View
  4. Kohli M, Moore D, Moore R. Using health technology to capture digital phenotyping data in HIV-associated neurocognitive disorders. AIDS 2021;35(1):15 View
  5. Giurgiu M, Timm I, Becker M, Schmidt S, Wunsch K, Nissen R, Davidovski D, Bussmann J, Nigg C, Reichert M, Ebner-Priemer U, 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 View
  6. Alexander J, Sovakova M, Rena G. Factors affecting resting heart rate in free-living healthy humans. DIGITAL HEALTH 2022;8:205520762211290 View
  7. Adamakis M. Validity of Wearable Monitors and Smartphone Applications for Measuring Steps in Semi-Structured and Free-Living Settings. Technologies 2023;11(1):29 View
  8. Shah V, Brumbach B, Pearson S, Vasilyev P, King E, Carlson-Kuhta P, Mancini M, Horak F, Sowalsky K, McNames J, El-Gohary M. Opal Actigraphy (Activity and Sleep) Measures Compared to ActiGraph: A Validation Study. Sensors 2023;23(4):2296 View
  9. Hudgins B, Kurti S, Edwards E, Hargens T. The impact of the COVID-19 pandemic on physical activity habits at a residential university. Journal of American College Health 2024;72(1):65 View
  10. Niela-Vilen H, Azimi I, Suorsa K, Sarhaddi F, Stenholm S, Liljeberg P, Rahmani A, Axelin A. Comparison of Oura Smart Ring Against ActiGraph Accelerometer for Measurement of Physical Activity and Sedentary Time in a Free-Living Context. CIN: Computers, Informatics, Nursing 2022;40(12):856 View
  11. Ding K, Juengst S, Neaves S, Turki A, Wang C, Huang M, Pham T, Behbehani K, Li M, Hynan L, Driver S, Zhang R, Bell K. Usability of a two-way personalized mobile trainer system in a community-based exercise program for adults with chronic traumatic brain injury. Brain Injury 2022;36(3):359 View
  12. Maldaner N, Tang M, Fatemi P, Leung C, Desai A, Tomkins-Lane C, Zygourakis C. Standardizing Physical Activity Monitoring in Patients With Degenerative Lumbar Disorders. Neurosurgery 2024;94(4):788 View
  13. Spartano N, Zhang Y, Liu C, Chernofsky A, Lin H, Trinquart L, Borrelli B, Pathiravasan C, Kheterpal V, Nowak C, Vasan R, Benjamin E, McManus D, Murabito J. Agreement between Apple Watch and Actical step counts in a community setting: The Framingham Heart Study (Preprint). JMIR Biomedical Engineering 2023 View

Books/Policy Documents

  1. Fillon A, Duclos M, Thivel D. Les Obésités. View