Published on in Vol 5, No 9 (2021): September
Preprints (earlier versions) of this paper are
available at
https://preprints.jmir.org/preprint/30819, first published
.
Journals
- Mayer C, Tyler J, Fang Y, Flora C, Frank E, Tewari M, Choi S, Sen S, Forger D. Consumer-grade wearables identify changes in multiple physiological systems during COVID-19 disease progression. Cell Reports Medicine 2022;3(4):100601 View
- Windisch P, Schröder C, Förster R, Cihoric N, Zwahlen D. Accuracy of the Apple Watch Oxygen Saturation Measurement in Adults: A Systematic Review. Cureus 2023 View
- Nurkahfi G, Armi N, Mardiana V, Dinata M, Mitayani A, Setiarini A, Prawara B, Kurniawan D, Firmansyah R, Sudirja , Rozie A, Arisal A, Setiana S. Development of a low-cost wearable device for Covid-19 self-quarantine monitoring system. Public Health in Practice 2022;4:100299 View
- Takano A, Ono K, Nozawa K, Sato M, Onuki M, Sese J, Yumoto Y, Matsushita S, Matsumoto T. Wearable Sensor and Mobile App–Based mHealth Approach for Investigating Substance Use and Related Factors in Daily Life: Protocol for an Ecological Momentary Assessment Study. JMIR Research Protocols 2023;12:e44275 View
- Scheid J, Reed J, West S. Commentary: Is Wearable Fitness Technology a Medically Approved Device? Yes and No. International Journal of Environmental Research and Public Health 2023;20(13):6230 View
- Hong W. Advances and Opportunities of Mobile Health in the Postpandemic Era: Smartphonization of Wearable Devices and Wearable Deviceization of Smartphones. JMIR mHealth and uHealth 2024;12:e48803 View
- Cornelis J, Christiaens W, de Meester C, Mistiaen P. Remote patient monitoring in patients with COVID-19 at home: literature review (Preprint). JMIR Nursing 2022 View