• DocumentCode
    1532361
  • Title

    Multilead Measurement System for the Time-Domain Analysis of Bioimpedance Magnitude

  • Author

    Gracia, Javier ; Seppä, Ville-Pekka ; Viik, Jari ; Hyttinen, Jari

  • Author_Institution
    Dept. of Biomed. Eng., Tampere Univ. of Technol., Tampere, Finland
  • Volume
    59
  • Issue
    8
  • fYear
    2012
  • Firstpage
    2273
  • Lastpage
    2280
  • Abstract
    Bioimpedance measurement applications range from the characterization of organic matter to the monitoring of biological signals and physiological parameters. Occasionally, multiple bioimpedances measured in different locations are combined in order to solve complex problems or produce enhanced physiological measures. The present multilead bioimpedance measurement methods are mainly focused on electrical impedance tomography. Systems designed to suit other multilead applications are lacking. In this study, a novel multilead bioimpedance measurement system was designed. This was particularly aimed at the time-domain analysis of bioimpedance magnitude. Frequency division multiplexing was used to avoid overlapping between excitation signals; undersampling, to reduce the hardware requirements; and power isolated active current sources, to reduce the electrical interactions between leads. These theoretical concepts were implemented on a prototype device. The prototype was tested on equivalent circuits and a saline tank in order to assess excitation signal interferences and electrical interactions between leads. The results showed that the proposed techniques are functional and the system´s validity was demonstrated on a real application, multilead impedance pneumography. Potential applications and further improvements were discussed. It was concluded that the novel approach potentially enables accurate and relatively low-power multilead bioimpedance measurements systems.
  • Keywords
    bioelectric phenomena; biomedical equipment; electric impedance imaging; electric impedance measurement; equivalent circuits; frequency division multiplexing; medical signal processing; signal sampling; time-domain analysis; bioimpedance magnitude; biological signals; electrical impedance tomography; electrical interactions; equivalent circuits; excitation signal interferences; frequency division multiplexing; hardware requirements; low-power multilead bioimpedance measurement system; multilead bioimpedance measurement methods; multilead impedance pneumography; organic matter; physiological parameters; power isolated active current sources; prototype device; saline tank; time-domain analysis; Bioimpedance; Biological system modeling; Biomedical measurements; Current measurement; Frequency division multiplexing; Impedance; Time domain analysis; Bioimpedance; frequency division multiplexing (FDM); impedance measurement; interference channels; Cardiography, Impedance; Computer Simulation; Electric Impedance; Entropy; Humans; Respiratory Function Tests; Signal Processing, Computer-Assisted;
  • fLanguage
    English
  • Journal_Title
    Biomedical Engineering, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9294
  • Type

    jour

  • DOI
    10.1109/TBME.2012.2202318
  • Filename
    6212335