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Bioimpedance Calculations using QuickField

tissue bioimpedance, organelle cell circuit model, cell membrane polarization

Bioimpedance Calculations using QuickField

Dr. James Claycomb who recently spoke about biophysical simulations, will continue his series of presentations by this new webinar about bioimpedance calculations using QuickField software.

Finite element and electrical circuit models will be developed in QuickField to simulate the response of tissue, cells, and organelles to time harmonic and transient excitations. Models include gap connected cells and signal propagation along dendrites. An electrical circuit model of electrode polarization will be demonstrated. Joule heating of tissue, cells and membranes will be calculated for time harmonic magnetic and current excitations.

  • Watch recorded webinar parts:

    Introduction

    1. Two membranes

    2. Dendrite

    3. Maxwell Wagner dispersion

    4. Debye-relaxation circuit model, Gap junction model, skin impedance

    5. Polarization impedance

    6. External excitation
  • Watch on YouTube.
  • Read presentation in PDF format.
  • Download simulation examples:
    block_impedance.zip,
    debye_relaxation.zip,
    dendrite.zip,
    dendrite_ac.zip,
    gap_junction.zip,
    maxwell_wagner.zip,
    polarization_imped.zip,
    two_membrane.zip,
    two_membrane_ac.zip,
    two_membrane_transient.zip.

    New version QuickField 6.4