This paper is in the following e-collection/theme issue:

Formative Evaluation of Digital Health Interventions (2193) Wearable Devices and Sensors (811) Fitness Trackers and Smart Pedometers/Accelerometers (539) mHealth for Data Collection and Research (907) Telehealth and Telemonitoring (1556) Instruments and Questionnaires for Physical Activity and Lifestyle (67)

Published on in Vol 6, No 1 (2022): January

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/30863, first published .
Continuous Monitoring of Vital Signs With Wearable Sensors During Daily Life Activities: Validation Study

Continuous Monitoring of Vital Signs With Wearable Sensors During Daily Life Activities: Validation Study

Continuous Monitoring of Vital Signs With Wearable Sensors During Daily Life Activities: Validation Study

Authors of this article:

Marjolein E Haveman1 Author Orcid Image ;   Mathilde C van Rossum2, 3 Author Orcid Image ;   Roswita M E Vaseur2 Author Orcid Image ;   Claire van der Riet1 Author Orcid Image ;   Richte C L Schuurmann1 Author Orcid Image ;   Hermie J Hermens2, 4 Author Orcid Image ;   Jean-Paul P M de Vries1 Author Orcid Image ;   Monique Tabak2, 4 Author Orcid Image
Article Authors Cited by (19) Tweetations (2) Metrics

Journals

  1. Haveman M, van Melzen R, El Moumni M, Schuurmann R, Hermens H, Tabak M, de Vries J. Determining the Reliable Measurement Period for Preoperative Baseline Values With Telemonitoring Before Major Abdominal Surgery: Pilot Cohort Study. JMIR Perioperative Medicine 2022;5(1):e40815 View
  2. Lv Z, Li Y. Wearable Sensors for Vital Signs Measurement: A Survey. Journal of Sensor and Actuator Networks 2022;11(1):19 View
  3. Yang M, Liu S, Zhang C. The Related Metabolic Diseases and Treatments of Obesity. Healthcare 2022;10(9):1616 View
  4. Haveman M, van Melzen R, Schuurmann R, Hermens H, Tabak M, de Vries J. Feasibility and patient’s experiences of perioperative telemonitoring in major abdominal surgery: an observational pilot study. Expert Review of Medical Devices 2022;19(6):515 View
  5. van Rossum M, da Silva P, Wang Y, Kouwenhoven E, Hermens H. Missing data imputation techniques for wireless continuous vital signs monitoring. Journal of Clinical Monitoring and Computing 2023;37(5):1387 View
  6. van der Stam J, Mestrom E, Scheerhoorn J, Jacobs F, Nienhuijs S, Boer A, van Riel N, de Morree H, Bonomi A, Scharnhorst V, Bouwman R. The Accuracy of Wrist-Worn Photoplethysmogram–Measured Heart and Respiratory Rates in Abdominal Surgery Patients: Observational Prospective Clinical Validation Study. JMIR Perioperative Medicine 2023;6:e40474 View
  7. Lu J, Sijm M, Janssens G, Goh J, Maier A. Remote monitoring technologies for measuring cardiovascular functions in community-dwelling adults: a systematic review. GeroScience 2023;45(5):2939 View
  8. van Melzen R, Haveman M, Schuurmann R, Struys M, de Vries J. Implementing Wearable Sensors for Clinical Application at a Surgical Ward: Points to Consider before Starting. Sensors 2023;23(15):6736 View
  9. Songthawornpong N, Vijayakumar T, Vang Jensen M, Elvekjaer M, Sørensen H, Aasvang E, Meyhoff C, Eriksen V. Continuous Monitoring of Vital Signs After Hospital Discharge: A Feasibility Study. PATIENT SAFETY 2023;5(2) View
  10. 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
  11. Posthuma L, Preckel B. Initiatives to detect and prevent death from perioperative deterioration. Current Opinion in Anaesthesiology 2023;36(6):676 View
  12. Gerboni G, Comunale G, Chen W, Lever Taylor J, Migliorini M, Picard R, Cruz M, Regalia G. Prospective clinical validation of the Empatica EmbracePlus wristband as a reflective pulse oximeter. Frontiers in Digital Health 2023;5 View
  13. Braem C, Yavuz U, Hermens H, Veltink P. Missing Data Statistics Provide Causal Insights into Data Loss in Diabetes Health Monitoring by Wearable Sensors. Sensors 2024;24(5):1526 View
  14. Mata-Romero M, Simental-Martínez O, Guerrero-Osuna H, Luque-Vega L, Lopez-Neri E, Ornelas-Vargas G, Castañeda-Miranda R, Martínez-Blanco M, Nava-Pintor J, García-Vázquez F. A Low-Cost Wearable Device to Estimate Body Temperature Based on Wrist Temperature. Sensors 2024;24(6):1944 View
  15. Volpes G, Valenti S, Genova G, Barà C, Parisi A, Faes L, Busacca A, Pernice R. Wearable Ring-Shaped Biomedical Device for Physiological Monitoring through Finger-Based Acquisition of Electrocardiographic, Photoplethysmographic, and Galvanic Skin Response Signals: Design and Preliminary Measurements. Biosensors 2024;14(4):205 View
  16. Rietz M, Schmidt-Persson J, Gillies Banke Rasmussen M, Overgaard Sørensen S, Rath Mortensen S, Brage S, Lund Kristensen P, Grøntved A, Brønd J. Facilitating ambulatory heart rate variability analysis using accelerometry-based classifications of body position and self-reported sleep. Physiological Measurement 2024;45(5):055016 View
  17. Gaur P, Temple D, Hegarty-Craver M, Boyce M, Holt J, Wenger M, Preble E, Eckhoff R, McCombs M, Davis-Wilson H, Walls H, Dausch D. Continuous Monitoring of Heart Rate Variability in Free-Living Conditions Using Wearable Sensors: An Exploratory Observational Study (Preprint). JMIR Formative Research 2023 View

Books/Policy Documents

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