Staircase in Frog Ventricular Muscle: Its Dependence on Membrane Excitation and Extracellular Ionic Composition

@article{Kavaler1978StaircaseIF,
  title={Staircase in Frog Ventricular Muscle: Its Dependence on Membrane Excitation and Extracellular Ionic Composition},
  author={Frederic Kavaler and T W Anderson and Edouard Coraboeuf},
  journal={Circulation Research},
  year={1978},
  volume={43},
  pages={917–925}
}
Staircase was studied in frog ventricle strip preparations where it was possible to alter extracellular ionic composition extremely rapidly in the diastolic interval between beats. Several findings strongly indicate that staircase in this tissue is a result of progressively increasing calcium influx per beat, rather than a beat-by-beat augmentation of an intracellular calcium pool which contributes to activation. After a steady state of force development, the very next beat could be graded… 
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Simulation by two calcium store models of myocardial dynamic properties: potentiation, staircase, and biphasic tension development.
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It is concluded that the late component of biphasic tension development is due to direct activation by the transsarcolemmal Ca flux of the myofilaments, whereas the early component is caused by the release of stored calcium.
The possible role of intracellular Ca2+-stores in the rhythm-inotropic relationship of frog heart muscle (a simulation study).
TLDR
The hypothesis that intracellular calcium stores play an essential role in determining force-frequency relationships of frog myocardium was tested quantitatively and some evidence in favour of the basic concept of rhythm-inotropic characteristics is offered.
The possible role of intracellular Ca2+-stores in the rhythm-inotropic relationship of frog heart muscle (a simulation study).
TLDR
A simplified mathematical model of excitation-co ntraction coupling in frog heart muscle was developed and its behaviour under various patterns of stimulation was analysed by means of computer simulation, offering some evidence in favour of the basic concept.
Role of Ica and Na+/Ca2+ exchange in the force-frequency relationship of rat heart muscle.
Electrical and mechanical activity of isoproterenol-damaged frog heart.
  • R. Volkmann
  • Biology, Medicine
    Comparative biochemistry and physiology. C, Comparative pharmacology and toxicology
  • 1985
Simulated calcium current can both cause calcium loading in and trigger calcium release from the sarcoplasmic reticulum of a skinned canine cardiac Purkinje cell
  • A. Fabiato
  • Biology
    The Journal of general physiology
  • 1985
TLDR
Skinned canine cardiac Purkinje cells were stimulated by regularly repeated microinjection-aspiration sequences that were programmed to simulate the fast initial component of the transsarcolemmal Ca2+ current and the subsequent slow component corresponding to noninactivating Ca2+, and the potentiation was progressive over several beats.
Contraction and relaxation of isolated cardiac myocytes of the frog under varying mechanical loads.
TLDR
The results suggest that the frog myocyte behaves like mammalian muscle, and they are consistent with the presence of a small viscosity within the cell, which concludes that the tissue structure of the frog heart may contribute to disparity in mechanical behavior at the different structural levels.
Varying Mechanical Loads
TLDR
The tissue structure of the frog heart may contribute to disparity in mechanical behavior at the different structural levels, and the hypothesis that myocardial relaxation in the frog is independent of load is tested.
Cellular mechanism of the relationship between myocardial force and frequency of contractions.
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