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. 2018 Dec 31;9(1):115-122.
doi: 10.2478/joeb-2018-0016. eCollection 2018 Jan.

Extracting Parasite Effects of Electrical Bioimpedance Measurements

Douglas Dutra  1 Pedro Bertemes-Filho  1
Affiliations

Extracting Parasite Effects of Electrical Bioimpedance Measurements

Douglas Dutra et al. J Electr Bioimpedance. .

Abstract

The objective of this work is to develop a technique for filtering parasitic effects from the impedance spectra (IS) measured in biological material phantoms. IS data are contaminated with unexpected capacitive and inductive effects from cable, input/output amplifiers capacitances, electrode polarization, temperature and contact pressure when collecting data. It is proposed a model which contains an RLC-network in series with the Cole model (RSC), then called RLC-Cole. It was built four circuits composed by resistors, capacitors and inductors. An impedance analyzer (HF2IS) was used to perform the measurements in the frequency range of 1 to 3000 kHz. Data were fitted into the model and comparisons to the nominal values were made. In order to validate the proposed model, a gelatin phantom and a chicken breast muscle impedance spectra were also collected and analyzed. After filtering, Cole fitting was performed. Results showed a maximum root-mean-square error of 1% for the circuits, 2.63% for the gelatin phantom, whereas 2.01% for the chicken breast. The RLC-Cole model could significantly remove parasitic effects out of a tissue impedance spectrum measured by a 4-point electrode probe. This may be highly important in EIS systems whose objective is to discriminate a normal tissue from a cancerous one.

Keywords: Bioimpedance; Cole model; filtering algorithm; parasitic impedance.

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Conflict of interest statement

Conflict of Interest The authors declare that they have no conflict of interest.

Figures

Fig.1
Fig.1
Schematic diagram of the model and measuring system. (a) Measuring system. (b) Parasitic impedances. (c) First proposed RLC-Cole-RLC model. (d) Final proposed RLC-Cole model. (e) Phantom measurements.
Fig.2
Fig.2
a) Mean impedance spectra of one of the electrical phantom; (b) gelatin phantom; (c) chicken breast muscle; (d) nominal and fitted values of the electrical phantom 3 (see table 1); e) fitted values for gelatin phantom; f) fitted values for chicken breast muscle.
See this image and copyright information in PMC

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