Forschung

ECG247 ist das Ergebnis langjähriger Forschung in Technologie und Herzmedizin. ECG247 verfügt über eine umfangreiche klinische Dokumentation der Benutzerfreundlichkeit und Genauigkeit.

ECG247 wird in mehreren laufenden Forschungsstudien und Projekten verwendet.

Ausgewählte Studien

Norwegian atrial fibrillation self-screening trial (NORSCREEN)

Die NORSCREEN-Studie wird prüfen, ob die Selbstuntersuchung mit ECG247 bisher unbekanntes Vorhofflimmern erkennen kann, damit die Teilnehmer eine Behandlung beginnen und eine spätere Erkrankung verhindern können. Die Studie wird 20.000 Teilnehmer über 65 Jahre umfassen und sie über norwegische Gesundheitsregister bis zu 5 Jahre lang verfolgen. Die Studie beginnt am Universitätsklinikum Oslo und wird von Professor Sigrun Halvorsen geleitet.

Lesen Sie mehr über die Studie unter NORSCREEN.org

AFstudien.no

AFstudien.no hat >2000 Teilnehmer aufgenommen. Ziel der Studie war unter anderem zu untersuchen, ob ein Selbsttest auf Vorhofflimmern möglich ist. Die Hauptergebnisse der Studie wurden in EP Europace veröffentlicht

Forschungsartikel

Jortveit J, Boskovic M, Halvorsen S. The NORwegian atrial fibrillation self-SCREENing trial (NORSCREEN). Hjerteforum. 2024;37(No 1).
Sandberg EL, Halvorsen S, Berge T, Grimsmo J, Atar D, Grenne BL, Jortveit J. Screening for Atrial Fibrillation by Digital Health Technology in Older People in Homecare Settings: A Feasibility Trial. International Journal of Telemedicine and Applications. 2024 2024/03/25;2024:4080415.
Jortveit J, Boskovic M, Sandberg EL, Vegsundvåg J, Halvorsen S. High Diagnostic Accuracy of Long-Term Electrocardiogram Interpretation by General Practitioners. International Journal of Telemedicine and Applications. 2024 2024/02/22;2024:6624344

Edvard Liljedahl Sandberg, Sigrun Halvorsen, Trygve Berge, Jostein Grimsmo, Dan Atar, Rune Fensli, Bjørnar Leangen Grenne, Jarle Jortveit, Fully digital self-screening for atrial fibrillation with patch electrocardiogram, EP Europace, 2023;, euad075, https://doi.org/10.1093/europace/euad075

Ausland Å, Sandberg EL, Jortveit J, Seiler S. Heart rhythm assessment in elite endurance athletes: A better method? Frontiers in Sports and Active Living. 2022;4.

Jortveit J, Früh A, Odland HH. Paroxysmal Tachycardia Diagnosed by ECG247 Smart Heart Sensor in a Previously Healthy Child. Case Reports in Pediatrics. 2022;2022:9027255.

Jortveit J, Fensli R. Remote ECG Monitoring by ECG247 Smart Heart Sensor. International Journal of Telemedicine and Applications. 2022;2022:6812889.

Sandberg EL, Grenne BL, Berge T, Grimsmo J, Atar D, Halvorsen S, et al. Diagnostic Accuracy and Usability of the ECG247 Smart Heart Sensor Compared to Conventional Holter Technology. Journal of Healthcare Engineering. 2021;2021:5230947.

Fensli, R, et al. Clinical evaluation of a wireless ECG sensor system for arrhythmia diagnostic purposes. Medical engineering & physics, 2013, 35.6: 697-703.
Fensli, R. W., & Svagård, I. S. A Proposed Desentralized Holter Diagnostic procedure. Paper presented at the 23rd International Conference of the European Federation for Medical Informatics, Oslo. 2011
Fensli, R., Dale, J. G., O`Reilly, P., O’Donoghue, J., Sammon, D., & Gundersen, T. (2009). Towards Improved Healthcare Performance: Examining Technological Possibilities and Patient Satisfaction with Wireless Body Area Networks Journal of Medical Systems, SpringerLink Date Tuesday, May 12, 2009. doi:DOI 10.1007/s10916-009-9291-8
Fensli, R., Gundersen, T., Snaprud, T., & Hejlesen, O. Signal quality of wearable sensors, methods for comparing recordings from a wireless ECG sensor to established clinical standards. Paper presented at the pHealth2009, The 6th international workshop on Wearable Micro and Nanosystems for Personalised Health Oslo, Norway. 2009
Fensli, R. Design Principles and Evaluation of a Wireless ECG Sensor System. Saarbrücken: VDM Verlag Dr. Müller. 2009
Fensli, R, et al. Sensor acceptance model–measuring patient acceptance of wearable sensors. Methods of information in medicine, 2008, 47.01: 89-95. hFensli, R. Design Principles and Evaluation of a Wireless ECG Sensor System. Saarbrücken: VDM Verlag Dr. Müller. 2009
Fensli, R; Boisen, E. Human factors affecting the patient’s acceptance of wireless biomedical sensors. In: International Joint Conference on Biomedical Engineering Systems and Technologies. Springer, Berlin, Heidelberg, 2008. p. 402-412.
Fensli, R. A Wireless ECG Sensor System for Arrhythmia Detection. Design Principles, Clinical Evaluation and Patient Acceptance. (Ph.D.), University of Aalborg, Aalborg, Denmark. 2008
Fensli, R., & Boisen, E. (2008, Jan 28-31). How to evaluate human factors of wireless biomedical sensors. Identifying aspects of patient acceptance based on a preliminary clinical trial. Paper presented at the International Conference on Health Informatics, HEALTHINF, Funchal, Madeira-Portugal. 2008
Fensli, R., & Boisen, E. (2008). Human Factors Affecting the Patient’s Acceptance of Wireless Biomedical Sensors. In A. Fred, J. Filipe, & H. Gamboa (Eds.), BIOSTEC 2008, CCIS 25 (pp. 402-412). Berlin Heidelberg: Springer-Verlag. 2008
Fensli, R., Hansen, F. Ø., Gunnarson, E., & Gundersen, T. (2006, June 12-14). Wearable Biomedical Sensors in a Tele-home-care Context, a Foresight Scenario. Paper presented at the Tromsø Telemedicine and eHealth Conference, Tromsø, Norway.
Fensli, R; Gunnarson, E; Gundersen, T. A wearable ECG-recording system for continuous arrhythmia monitoring in a wireless tele-home-care situation. In: 18th IEEE Symposium on Computer-Based Medical Systems (CBMS’05). IEEE, 2005. p. 407-412.
Fensli, R; Gunnarson, E; Heljesen, O. A wireless ECG system for continuous event recording and communication to a clinical alarm station. In: The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE, 2004. p. 2208-2211.
Fensli, R; Gunnarson, E; Heljesen, O. A wireless cardiac alarm system for continuous event recording. In: Building High Performance Healthcare Organizations, Medinfo 2004, Proceedings of the 11th World Congress on Medical Informatics, 7-11 September 2004, San Francisco, CA, USA (CD-ROM). International Medical Informatics Association (IMIA); American Medical Informatics Association (AMIA), 2004. p. 1589.
Fensli, R; Gunnarson, E; Heljesen, O. A wireless ECG system for continuous event recording and communication to a clinical alarm station. In: The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE, 2004. p. 2208-2211.
Fensli, R; Gunnarson, E; Heljesen, O. A wireless cardiac alarm system for continuous event recording. In: Building High Performance Healthcare Organizations, Medinfo 2004, Proceedings of the 11th World Congress on Medical Informatics, 7-11 September 2004, San Francisco, CA, USA (CD-ROM). International Medical Informatics Association (IMIA); American Medical Informatics Association (AMIA), 2004. p. 1589.