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Textile and Apparel Science

Evaluating Textile-Based ECG Collection for Continuous Remote Atrial Fibrillation Monitoring

Authors
  • Andrew Waldherr (Washington University in St. Louis)
  • Mary Ruppert-Stroescu (Oklahoma State University)
  • Kristian Nilsen (Washington University in St. Louis)
  • Maggie Miller (Washington University in St. Louis)

Abstract

This study addresses the problem of continuous heart rate monitoring to detect Atrial Fibrillation (AF)  by developing textile-based ECG technology to be embedded in a smart shirt system. Our interdisciplinary approach combines textile, engineering, and medical expertise to determine the relationship between conductive yarn, ECG electrode resistance, and  clarity of ECG readings. Defining and understanding the components of textile-based ECG readings will help reduce the amount of observable interference in ECG readings and improve reliability through using felted electrodes. Resistance tests were performed to measure the effect of the base material and of the size of the felted electrode. The results showed that a) the fabric base had no effect on the electrical resistance of the transmission line lead and ECG electrode; and b) a smaller, concentrated felted area leads to lower electrical resistance in the transmission line between the end of the lead and the ECG electrode.

Keywords: medical textileatrial fibrillation, remote patient monitoring, atrial fibrillation, medical textile, textile electrode, conductive textile

How to Cite:

Waldherr, A., Ruppert-Stroescu, M., Nilsen, K. & Miller, M., (2020) “Evaluating Textile-Based ECG Collection for Continuous Remote Atrial Fibrillation Monitoring”, International Textile and Apparel Association Annual Conference Proceedings 77(1). doi: https://doi.org/10.31274/itaa.12172

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Published on
2020-12-28

Peer Reviewed