A novel 12-lead electrocardiographic system for home use

A novel 12-lead electrocardiographic system for home use: Development and usability testing

Steijlen, A.S.M. (TU Delft Product Architecture Design)
Jansen, K.M.B. (TU Delft Emerging Materials)
Albayrak, A. (TU Delft Applied Ergonomics and Design)
Verschure, D. O. (Zaans Medisch Centrum)
Van Wijk, D.F. (Onze Lieve Vrouwe Gasthuis)

2018

Background: Cardiovascular diseases (CVD) are the leading cause of morbidity and mortality worldwide. Early diagnosis is of pivotal importance for patients with cardiac arrhythmias and ischemia to minimize the consequences like strokes and myocardial infarctions. The chance of capturing signals of arrhythmias or ischemia is substantially high when a 12-lead electrocardiogram (ECG) can be recorded at the moment when a patient experiences the symptoms. However, until now, available diagnostic systems (Holter monitors and other wearable ECG sensors) have not enabled patients to record a reliable 12-lead ECG at home. Objective: The objective of this project was to develop a user-friendly system that enables persons with cardiac complaints to record a reliable 12-lead ECG at home to improve the diagnostic process and, consequently, reduce the time between the onset of symptoms and adequate treatment. Methods: Using an iterative design approach, ECGraph was developed. The system consists of an ECG measurement system and a mobile app, which were developed with the help of several concept tests. To evaluate the design, a prototype of the final design was built and a final technical performance test and usability test were executed. Results: The ECG measurement system consists of a belt and 4 limb straps. Ten wet Ag/AgCl electrodes are placed in the belt to optimize skin-electrode contact. The product is controlled via an app on the mobile phone of the user. Once a person experiences symptoms, he or she can put on the belt and record ECGs within a few minutes. Short instructions, supported by visualizations, offer guidance during use. ECGs are sent wirelessly to the caregiver, and the designated expert can quickly interpret the results. Usability tests with the final prototype (n=6) showed that the participants were able to put on the product within 8 minutes during first-time use. However, we expect that the placement of the product can be executed faster when the user becomes more familiar with the product. Areas of improvement focus mainly on confidence during product use. In the technical performance test, a 12-lead ECG was made and reproduced 6 times. Conclusions: We developed a new 12-lead ECG system for home use. The product is expected to be more user-friendly than current hospital ECG systems and is designed to record more reliable data than current ECG systems for home use, which makes it suitable for expert interpretation. The system has great potential to be incorporated into an outpatient practice, so that arrhythmias and ischemia can be diagnosed and treated as early as possible.

12-lead ECG system
Electrocardiography
Handheld
Home use
User-centered design
OA-Fund TU Delft

http://resolver.tudelft.nl/uuid:7c45ed2f-b94b-41c3-a7f2-3c2beed87e99

https://doi.org/10.2196/10126

2291-5222

JMIR mHealth and uHealth, 6 (7), 1-14

Institutional Repository

journal article

© 2018 A.S.M. Steijlen, K.M.B. Jansen, A. Albayrak, D. O. Verschure, D.F. Van Wijk