Multifrequency bioimpedance device based on the Analog Discovery 2: performance and characterization

Alberto Battistel, Hegoa Craamer Lizarraga, Maite Termenon, Knut Möller
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Abstract

Abstract Bioimpedance spectroscopy can be used to investigate the composition and monitor the human body, organs, tissues, or cell cultures by measuring the voltage developed by the injection of small alternating currents at different frequencies. These currents are injected sequentially through a frequency sweep and a with a Howland current source or one of its modifications. However, the frequency sweep is not time efficient and introduces problems with data coherence in the case of bioinstability. On the other hand, the Howland current source requires high precision matching between its components. In this contribution we developed a custom-made device for bioimpedance measurements based on a multisine current waveform and on a negative-feedback topology for the current source. Measurements on passive elements showed that the device had less than 1Ω and 0.05∘ uncertainty in the frequency range between 500 Hz and 200 kHz for impedance between 1 kΩ and 10 kΩ. The measurements were affected by an inductive artifact connected with the limited common-mode rejection at high frequencies. Nevertheless, we could characterize the artifacts through a fitting procedure to recover the expected value of the targeted impedance.
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基于模拟发现的多频生物阻抗器件2:性能与表征
摘要:生物阻抗谱通过测量不同频率的小交流电注入产生的电压,可用于研究人体、器官、组织或细胞培养物的组成和监测。这些电流依次注入通过频率扫描和一个与霍兰德电流源或其修改之一。然而,频率扫描不具有时间效率,并且在生物不稳定性的情况下引入了数据一致性问题。另一方面,Howland电流源要求元件之间的高精度匹配。在这项贡献中,我们开发了一种定制的生物阻抗测量设备,该设备基于多正弦电流波形和电流源的负反馈拓扑。对无源元件的测量表明,该装置在500赫兹和200千赫的频率范围内,阻抗在1 kΩ和10 kΩ之间时的不确定度小于1Ω和0.05。测量结果受高频共模抑制受限的感应伪影影响。然而,我们可以通过拟合程序来表征伪影,以恢复目标阻抗的期望值。
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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来源期刊
Current Directions in Biomedical Engineering
Current Directions in Biomedical Engineering Engineering-Biomedical Engineering
CiteScore
0.90
自引率
0.00%
发文量
239
审稿时长
14 weeks
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