Published on in Vol 6, No 6 (2022): June

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/36066, first published .
Assessing the Usability of a Novel Wearable Remote Patient Monitoring Device for the Early Detection of In-Hospital Patient Deterioration: Observational Study

Assessing the Usability of a Novel Wearable Remote Patient Monitoring Device for the Early Detection of In-Hospital Patient Deterioration: Observational Study

Assessing the Usability of a Novel Wearable Remote Patient Monitoring Device for the Early Detection of In-Hospital Patient Deterioration: Observational Study

Journals

  1. van Goor H, Vernooij L, Breteler M, Kalkman C, Kaasjager K, van Loon K. Association of Continuously Measured Vital Signs With Respiratory Insufficiency in Hospitalized COVID-19 Patients: Retrospective Cohort Study. Interactive Journal of Medical Research 2022;11(2):e40289 View
  2. Li K, Morales-Garza M, Cardoso C, Moctezuma-Ramirez A, Burman A, Titus J, Elgalad A, Perin E. Early Changes in Acute Myocardial Infarction in Pigs: Achieving Early Detection with Wearable Devices. Diagnostics 2023;13(6):1006 View
  3. Eisenkraft A, Goldstein N, Merin R, Fons M, Ishay A, Nachman D, Gepner Y. Developing a real-time detection tool and an early warning score using a continuous wearable multi-parameter monitor. Frontiers in Physiology 2023;14 View
  4. Mayer J, Jose R, Kurgansky G, Singh P, Coletti C, Devine T, Toma M. Evaluating the Feasibility of Euler Angles for Bed-Based Patient Movement Monitoring. Signals 2023;4(4):788 View
  5. van Rossum M, Bekhuis R, Wang Y, Hegeman J, Folbert E, Vollenbroek-Hutten M, Kalkman C, Kouwenhoven E, Hermens H. Early Warning Scores to Support Continuous Wireless Vital Sign Monitoring for Complication Prediction in Patients on Surgical Wards: Retrospective Observational Study. JMIR Perioperative Medicine 2023;6:e44483 View
  6. Hua Z, Ke Y, Yang Z, Di Z, Pan G, Gao K. Computer vision-aided mmWave communications for indoor medical healthcare. Computers in Biology and Medicine 2024;169:107869 View
  7. Eisenkraft A. Threat Agnostic Approach to Epidemic Management Using Continuous Remote Patient Monitoring. Health Security 2024;22(2):156 View
  8. Baron R, Haick H. Mobile Diagnostic Clinics. ACS Sensors 2024;9(6):2777 View
  9. Zychlinski N, Fluss R, Goldberg Y, Zubli D, Barkai G, Zimlichman E, Segal G, Pietrantonio F. Tele-medicine controlled hospital at home is associated with better outcomes than hospital stay. PLOS ONE 2024;19(8):e0309077 View
  10. Aagaard N, Aasvang E, Meyhoff C. Discrepancies between Promised and Actual AI Capabilities in the Continuous Vital Sign Monitoring of In-Hospital Patients: A Review of the Current Evidence. Sensors 2024;24(19):6497 View
  11. Belliveau J, Pilote L, Grange E, Zaouter C, Roy M, Robin F. Continuous vital sign monitoring with Biobeat® wearable devices for post-ambulatory surgery patients: a pilot feasibility study. Journal of Clinical Monitoring and Computing 2025 View
  12. Zhang Y, Querney J, Subramani Y, Naismith K, Singh P, Fochesato L, Fatima N, Wood N, Malthaner R, Nagappa M. Biobeat monitor utilization in various healthcare settings: A systematic review. DIGITAL HEALTH 2025;11 View
  13. Gazmuri R, Bieber R, Lim C, Apigo M, Martin M. A single early warning signs (SEWS) system for recognizing clinically deterioration outperforms the national early warning score (NEWS) by having a lower activation threshold, broader clinical scope, and faster response time. Resuscitation Plus 2025;23:100947 View

Books/Policy Documents

  1. Santos S, Guarino M, Neves S, Lopes N. Smart Objects and Technologies for Social Good. View