3D-Printed Electrocardiogram Electrodes for Heart Rate Detection in Canines

2018 IEEE Biomedical Circuits and Systems Conference (BioCAS) Pub Date : 2018-10-01 DOI:10.1109/BIOCAS.2018.8584677

Marc Foster, Patrick D. Erb, B. Plank, H. West, J. Russenberger, M. Gruen, M. Daniele, D. Roberts, A. Bozkurt

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引用次数: 11

Abstract

This paper describes the design and fabrication of 3D-printed conductive electrodes for measuring heart rate and heart rate variability in animals. The customizable electrodes have a three-legged stool structure with rounded edges in order to provide optimized, balanced, and comfortable skin contact through the fur of the animal without needing to shave it. We explored two alternative designs for manufacturing: a flexible, insulated base structure coated with graphene for conductivity and a rigid, all-conductive, graphene-infused PLA base structure. To enable connection to standard female electrocardiogram snap connectors, we epoxied the former electrode with a metal male snap connector and the latter electrode had the standard-sized male snap connector 3D printed in one assembly. We characterized and compared the performance of these electrodes through electrochemical impedance spectroscopy and benchmarked with commercial electrodes traditionally used in veterinary clinics. Preliminary in vivo results demonstrate the feasibility of these electrodes to measure heart rate and heart rate variability in canine puppies.

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用于犬心率检测的3d打印心电图电极

本文描述了用于测量动物心率和心率变异性的3d打印导电电极的设计和制造。可定制的电极有一个圆形边缘的三脚凳结构，以便通过动物的皮毛提供优化、平衡和舒适的皮肤接触，而无需剃毛。我们探索了两种可供选择的制造设计:一种是涂有导电石墨烯的柔性绝缘基结构，另一种是刚性的全导电石墨烯注入PLA基结构。为了能够连接到标准的女性心电图卡扣连接器，我们用金属公卡扣连接器对前一个电极进行了环氧化处理，后一个电极在一个组件中3D打印了标准尺寸的公卡扣连接器。我们通过电化学阻抗谱对这些电极的性能进行了表征和比较，并与传统上用于兽医诊所的商用电极进行了基准测试。初步的体内实验结果证明了这些电极测量幼犬心率和心率变异性的可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 IEEE Biomedical Circuits and Systems Conference (BioCAS)

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