• Title of article

    The beat-to-beat decay of cardiac contractility from highly potentiated levels is bi-exponential

  • Author/Authors

    Mark I.M. Noble، نويسنده , , Per Arlock، نويسنده , , Bjorn Wohlfart، نويسنده , , Angela J. Drake-Holland، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2006
  • Pages
    8
  • From page
    2657
  • To page
    2664
  • Abstract
    In order to determine the mode of beat-to-beat decay of contractility from very high levels, we studied the beat-by-beat decay of cardiac contractility following potentiation. Such decay curves are normally analysed using a mono-exponential decay function, which assumes that a fixed fraction of activator calcium ions is recirculated from one beat to the next. We postulated that there might be deviations from such a mono-exponential expression at high levels of contractility. In single sucrose-gap voltage clamp experiments of isolated ferret papillary muscle, we obtained very high contractility by potentiation due to prolonged depolarisations. We found a bi-exponential decay in 9 of 11 muscles studied, in which the initial decay is much faster than the subsequent slower decay, as judged by residual variance of least-squares exponential fitting and by analysis of covariance using a linear equation (force of beat versus force of previous beat), p=0.0089. In the slower decay period (physiological range), the decay was identical to that following post-extrasystolic potentiation in the same muscles studied with conventional stimulation.
  • Keywords
    Voltage clamp , Cardiac calcium handling , Post-extrasystolic potentiation , sarcoplasmic reticulum , myocardium , Force-intervalrelationship , Sodium–calcium exchange , Excitation–contraction coupling
  • Journal title
    Journal of Biomechanics
  • Serial Year
    2006
  • Journal title
    Journal of Biomechanics
  • Record number

    452330