TY - JOUR
T1 - On the design and development of a handheld electrocardiogram device in a clinical setting
AU - Zepeda-Echavarria, Alejandra
AU - Ratering Arntz, Niek C M
AU - Westra, Albert H
AU - van Schelven, Leonard J
AU - Euwe, Froukje E
AU - Noordmans, Herke Jan
AU - Vessies, Melle
AU - van de Leur, Rutger R
AU - Hassink, Rutger J
AU - Wildbergh, Thierry X
AU - van der Zee, Rien
AU - Doevendans, Pieter A
AU - van Es, René
AU - Jaspers, Joris E N
N1 - Publisher Copyright:
2024 Zepeda-Echavarria, Ratering Arntz, Westra, van Schelven, Euwe, Noordmans, Vessies, van de Leur, Hassink, Wildbergh, van der Zee, Doevendans, van Es and Jaspers.
PY - 2024/8/9
Y1 - 2024/8/9
N2 - Cardiovascular diseases (CVDs) are a global burden that requires attention. For the detection and diagnosis of CVDs, the 12-lead ECG is a key tool. With technological advancements, ECG devices are becoming smaller and available for home use. Most of these devices contain a limited number of leads and are aimed to detect atrial fibrillation (AF). To investigate whether a four-electrode arrangement could provide enough information to diagnose other CVDs, further research is necessary. At the University Medical Center Utrecht in a multidisciplinary team, we developed the miniECG, a four-electrode ECG handheld system for scientific research in clinical environments (TRL6). This paper describes the process followed during the development of the miniECG. From assembling a multidisciplinary team, which includes engineers, cardiologists, and clinical physicians to the contribution of team members in the design input, design, and testing for safety and functionality of the device. Finally, we detail how the development process was composed by iterative design steps based on user input and intended use evolution. The miniECG is a device compliant for scientific research with patients within Dutch Medical Centers. We believe that hospital-based development led to a streamlined process, which could be applied for the design and development of other technologies used for scientific research in clinical environments.
AB - Cardiovascular diseases (CVDs) are a global burden that requires attention. For the detection and diagnosis of CVDs, the 12-lead ECG is a key tool. With technological advancements, ECG devices are becoming smaller and available for home use. Most of these devices contain a limited number of leads and are aimed to detect atrial fibrillation (AF). To investigate whether a four-electrode arrangement could provide enough information to diagnose other CVDs, further research is necessary. At the University Medical Center Utrecht in a multidisciplinary team, we developed the miniECG, a four-electrode ECG handheld system for scientific research in clinical environments (TRL6). This paper describes the process followed during the development of the miniECG. From assembling a multidisciplinary team, which includes engineers, cardiologists, and clinical physicians to the contribution of team members in the design input, design, and testing for safety and functionality of the device. Finally, we detail how the development process was composed by iterative design steps based on user input and intended use evolution. The miniECG is a device compliant for scientific research with patients within Dutch Medical Centers. We believe that hospital-based development led to a streamlined process, which could be applied for the design and development of other technologies used for scientific research in clinical environments.
KW - clinical scientific research
KW - design and development, TRL
KW - mobile ECG
KW - wearables
UR - http://www.scopus.com/inward/record.url?scp=85201810746&partnerID=8YFLogxK
U2 - 10.3389/fdgth.2024.1403457
DO - 10.3389/fdgth.2024.1403457
M3 - Article
C2 - 39184339
VL - 6
JO - Frontiers in Digital Health
JF - Frontiers in Digital Health
M1 - 1403457
ER -