• DocumentCode
    1462267
  • Title

    On measuring curvature and electrical diffusion coefficients in anisotropic myocardium: comments on "Effects of bipolar point and line simulation in anisotropic rabbit epicardium: assessment of the critical radius of curvature for longitudinal block" [com

  • Author

    Winfree, Arthur ; Knisley, S.B.

  • Author_Institution
    Arizona Univ., Tucson, AZ, USA
  • Volume
    43
  • Issue
    12
  • fYear
    1996
  • Firstpage
    1200
  • Lastpage
    1204
  • Abstract
    Winfree comments as follows: Notions of "curvature" and "propagation perpendicular to the activation front" inherited from electrophysiological theory of isotropic reaction-diffusion media do not apply directly to experimental data taken in uniformly anisotropic myocardium. They apply directly only after the concept of "curvature" is normalized and propagation is made to look perpendicular to activation fronts by rescaling distances to achieve isotropy. Without rescaling, the curvature-dependence of longitudinal propagation speed turns out counter-intuitively to measure transverse intercellular electrical coupling. In reply Knisley concludes that it is important to recognize that although rescaling to isotropy has the advantage of providing a single value for critical curvature, the value is not the same as the critical curvatures that theoretically occur on either axis in the heart. In general the critical radius of curvature will vary according to the angle of the wavefront relative to fibers. This may have important consequences, e.g., for the design of small pacing electrodes as Dr. Winfree suggests.
  • Keywords
    biodiffusion; bioelectric phenomena; cardiology; curvature measurement; muscle; anisotropic myocardium; anisotropic rabbit epicardium; bipolar point; curvature critical radius; electrical diffusion coefficients; electrophysiological theory; isotropic reaction-diffusion media; line simulation; longitudinal propagation speed; small pacing electrodes design; transverse intercellular electrical coupling; wavefront angle; Anisotropic magnetoresistance; Biomembranes; Capacitance; Conductivity; Electric variables measurement; Electrophysiology; Equations; Myocardium; Optical fiber theory; Rabbits; Action Potentials; Animals; Anisotropy; Diffusion; Electric Conductivity; Myocardium; Rabbits;
  • fLanguage
    English
  • Journal_Title
    Biomedical Engineering, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0018-9294
  • Type

    jour

  • DOI
    10.1109/10.544345
  • Filename
    544345