Published on in Vol 8, No 2 (2020): February

Accuracy of Vital Signs Measurements by a Smartwatch and a Portable Health Device: Validation Study

Accuracy of Vital Signs Measurements by a Smartwatch and a Portable Health Device: Validation Study

Accuracy of Vital Signs Measurements by a Smartwatch and a Portable Health Device: Validation Study

Journals

  1. Mühlen J, Stang J, Lykke Skovgaard E, Judice P, Molina-Garcia P, Johnston W, Sardinha L, Ortega F, Caulfield B, Bloch W, Cheng S, Ekelund U, Brønd J, Grøntved A, Schumann M. Recommendations for determining the validity of consumer wearable heart rate devices: expert statement and checklist of the INTERLIVE Network. British Journal of Sports Medicine 2021;55(14):767 View
  2. Wan E, Ghanbari H, Akoum N, Itzhak Attia Z, Asirvatham S, Chung E, Dagher L, Al-Khatib S, Stuart Mendenhall G, McManus D, Pathak R, Passman R, Peters N, Schwartzman D, Svennberg E, Tarakji K, Turakhia M, Trela A, Yarmohammadi H, Marrouche N. HRS White Paper on Clinical Utilization of Digital Health Technology. Cardiovascular Digital Health Journal 2021;2(4):196 View
  3. Wilson-Baig N. Happy hypoxia in COVID-19: pathophysiology and pulse oximetry accuracy. Journal of Paramedic Practice 2021;13(7):288 View
  4. van Wamelen D, Sringean J, Trivedi D, Carroll C, Schrag A, Odin P, Antonini A, Bloem B, Bhidayasiri R, Chaudhuri K. Digital health technology for non-motor symptoms in people with Parkinson's disease: Futile or future?. Parkinsonism & Related Disorders 2021;89:186 View
  5. Rafl J, Bachman T, Rafl-Huttova V, Walzel S, Rozanek M. Commercial smartwatch with pulse oximeter detects short-time hypoxemia as well as standard medical-grade device: Validation study. DIGITAL HEALTH 2022;8:205520762211321 View
  6. Cao R, Azimi I, Sarhaddi F, Niela-Vilen H, Axelin A, Liljeberg P, Rahmani A. Accuracy Assessment of Oura Ring Nocturnal Heart Rate and Heart Rate Variability in Comparison With Electrocardiography in Time and Frequency Domains: Comprehensive Analysis. Journal of Medical Internet Research 2022;24(1):e27487 View
  7. Hawthorne G, Richardson M, Greening N, Esliger D, Briggs-Price S, Chaplin E, Clinch L, Steiner M, Singh S, Orme M. A proof of concept for continuous, non-invasive, free-living vital signs monitoring to predict readmission following an acute exacerbation of COPD: a prospective cohort study. Respiratory Research 2022;23(1) View
  8. Paladino F, Accorsi T, Gueuvoghlanian-Silva B, Almeida M, Barbosa J, Oliveira M, Pedrotti C, Amicis K, Lottenberg C, Cordioli E. Mobile application-based oximetry: a potential toolfor appropriate referral of patients with respiratory symptoms examined via telemedicine. einstein (São Paulo) 2022;21 View
  9. Nikolov N, Soloviov O, Burkovskyi Y. Modern capabilities of telebiometric monitoring studies of the functional state of human body. Review. Part I. Wearable technology. Ukrainian Journal of Occupational Health 2022;2022(2):155 View
  10. Svendsen E, Økland F, Føre M, Randeberg L, Finstad B, Olsen R, Alfredsen J. Optical measurement of tissue perfusion changes as an alternative to electrocardiography for heart rate monitoring in Atlantic salmon (Salmo salar). Animal Biotelemetry 2021;9(1) View
  11. Van Velthoven M, Oke J, Kardos A. ChroniSense National Early Warning Score Study: Comparison Study of a Wearable Wrist Device to Measure Vital Signs in Patients Who Are Hospitalized. Journal of Medical Internet Research 2023;25:e40226 View
  12. Barros G, Barros G, Anjos M, Mazullo Filho J. Smartwatch, oxygen saturation, and COVID-19: Trustworthy?. ABCS Health Sciences 2021;46 View
  13. Dese K, Ayana G, Lamesgin Simegn G. Low cost, non-invasive, and continuous vital signs monitoring device for pregnant women in low resource settings (Lvital device). HardwareX 2022;11:e00276 View
  14. Chakrabarti S, Biswas N, Jones L, Kesari S, Ashili S. Smart Consumer Wearables as Digital Diagnostic Tools: A Review. Diagnostics 2022;12(9):2110 View
  15. Sarhaddi F, Kazemi K, Azimi I, Cao R, Niela-Vilén H, Axelin A, Liljeberg P, Rahmani A, Mian Qaisar S. A comprehensive accuracy assessment of Samsung smartwatch heart rate and heart rate variability. PLOS ONE 2022;17(12):e0268361 View
  16. Chrysant S. Relatability of Blood Pressure Monitoring With Wearable Cuffless Devices. The American Journal of Cardiology 2022;169:145 View
  17. Tas B, Lawn W, Traykova E, Evans R, Murvai B, Walker H, Strang J. A scoping review of mHealth technologies for opioid overdose prevention, detection and response. Drug and Alcohol Review 2023;42(4):748 View
  18. Jiang Y, Spies C, Magin J, Bhosai S, Snyder L, Dunn J, Rush B. Investigating the accuracy of blood oxygen saturation measurements in common consumer smartwatches. PLOS Digital Health 2023;2(7):e0000296 View
  19. Ibrahim N, Lee W, Rampal S, Suhaimi A. Integrating the wrist-worn tracker in cardiac rehabilitation programmes: a scoping review. International Journal of Therapy and Rehabilitation 2023;30(10):1 View
  20. Ganchi F, Hardcastle T. Role of Point-of-Care Diagnostics in Lower- and Middle-Income Countries and Austere Environments. Diagnostics 2023;13(11):1941 View
  21. Bin K, De Pretto L, Sanchez F, De Souza e Castro F, Ramos V, Battistella L. Digital Platform for Continuous Monitoring of Patients Using a Smartwatch: Longitudinal Prospective Cohort Study. JMIR Formative Research 2023;7:e47388 View
  22. Dr. Kavita K Patil , Bharath J , Harsha L R . Smart Health Recommendation using Vitals. International Journal of Advanced Research in Science, Communication and Technology 2024:221 View
  23. Zeng Z, Li L, Hu L, Wang K, Li L. Smartwatch measurement of blood oxygen saturation for predicting acute mountain sickness: Diagnostic accuracy and reliability. DIGITAL HEALTH 2024;10 View
  24. Ikuta K, Aishima M, Noguchi-Watanabe M, Fukui S. Feasibility of Monitoring Heart and Respiratory Rates Using Nonwearable Devices and Consistency of the Measured Parameters: Pilot Feasibility Study. JMIR Human Factors 2024;11:e56547 View

Books/Policy Documents

  1. Sultana I, Farhin F, Zohora F. Rhythms in Healthcare. View