Cardiac Arrhythmias: Difference between revisions

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===Phase 4: Resting membrane potential===
===Phase 4: Resting membrane potential===
Depending on cell type the resting membrane potential is between -50 to -95 mV, sinus node and AV nodal cells have a higher resting membrane potential (-50 to -60 mV and -60 to -70 respectively) in comparison with atrial and ventricular cardiomyocytes (-80 to -90 mV). The differences in resting membrane potential is mainly caused by differences in the the Na+ outside the cell and the K<sup>+</sup> inside the cell. Sinus node cells and AV nodal cells (and to a lesser degree Purkinje fibers cells) have a special voltage dependent channel I<sub>f</sub>, the funny current. Furthermore they lack I<sub>K1</sub>, a K<sup>+</sup> ion channel that maintains the resting membrane potential in atrial and ventricular tissue. This channel displays a slow depolarization in diastole, called the phase 4 diastolic depolarization, and results normal automaticity. Sinus node discharges are regulated by the autonomous nerve system and due to its high firing frequency dominates other potential pacemaker sites.
Depending on cell type the resting membrane potential is between -50 to -95 mV, sinus node and AV nodal cells have a higher resting membrane potential (-50 to -60 mV and -60 to -70 respectively) in comparison with atrial and ventricular cardiomyocytes (-80 to -90 mV). The resting membrane potential is mainly caused by differences in the the K<sup>+</sup> outside the cell and the K<sup>+</sup> inside the cell. Sinus node cells and AV nodal cells (and to a lesser degree Purkinje fibers cells) have a special voltage dependent channel I<sub>f</sub>, the funny current. Furthermore they lack I<sub>K1</sub>, a K<sup>+</sup> ion channel that maintains the resting membrane potential in atrial and ventricular tissue. This channel causes a slow depolarization in diastole, called the phase 4 diastolic depolarization, which results in normal automaticity. Sinus node discharges are regulated by the autonomous nerve system and due to the high firing frequency the sinus node dominates other potential pacemaker sites.


==Cardiac conduction==
==Cardiac conduction==
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