منابع مشابه
A Strand of Cardiac Muscle
The structure of a small strand of rabbit heart muscle fibers (trabecula carnea), 30-80 micro in diameter, has been examined with light and electron microscopy. By establishing a correlation between the appearance of regions of close fiber contact in light and electron microscopy, the extent and distribution of regions of close apposition of fibers has been evaluated in approximately 200 micro ...
متن کاملAction potential propagation in a thick strand of cardiac muscle.
A theoretical model of action potential propagation in a thick strand of cardiac muscle is presented. The calculation takes into account the anisotropic and syncytial properties of the tissue, the presence of the interstitial space, the effect of the surrounding tissue bath, and the variation of the potential both along the strand length and across the strand cross section. The bidomain model i...
متن کاملA synthetic strand of cardiac muscle: its passive electrical properties
The passive electrical properties of synthetic strands of cardiac muscle, grown in tissue culture, were studied using two intracellular microelectrodes: one to inject a rectangular pulse of current and the other to record the resultant displacement of membrane potential at various distances from the current source. In all preparations, the potential displacement, instead of approaching a steady...
متن کاملA STRAND OF CARDIAC MUSCLE Its Ultrastructure and the Electrophysiological Implications of Its Geometry
The structure of a small strand of rabbit heart muscle fibers (trabecula carnea), 30-80 # in diameter, has been examined with light and electron microscopy. By establishing a correlation between the appearance of regions of close fiber contact in light and electron microscopy, the extent and distribution of regions of close apposition of fibers has been evaluated in approximately 200 ]z length ...
متن کاملEphaptic conduction in a cardiac strand model with 3D electrodiffusion.
We study cardiac action potential propagation under severe reduction in gap junction conductance. We use a mathematical model of cellular electrical activity that takes into account both three-dimensional geometry and ionic concentration effects. Certain anatomical and biophysical parameters are varied to see their impact on cardiac action potential conduction velocity. This study uncovers quan...
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ژورنال
عنوان ژورنال: Journal of Cell Biology
سال: 1967
ISSN: 1540-8140,0021-9525
DOI: 10.1083/jcb.33.1.103