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Inward Rectifying K + Current Fast Na + Current

Inward Rectifying K + Current Fast Na + Current. Naralys B. Rukhinda M. Girish R. Ion Current Dynamics. Avia Biosciences, .  Currents in Action Potential . N.d . n.p . Web. 24 Jan 2013. <http://avivabio.com/products/tutorephys.php>. ten Tusscher Equations For Ion Channels .

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Inward Rectifying K + Current Fast Na + Current

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  1. Inward Rectifying K+ CurrentFast Na+ Current Naralys B. Rukhinda M. Girish R.

  2. Ion Current Dynamics Avia Biosciences, . Currents in Action Potential. N.d. n.p. Web. 24 Jan 2013. <http://avivabio.com/products/tutorephys.php>.

  3. ten Tusscher Equations For Ion Channels “m is an activation gate, h is a fast inactivation gate, and j is a slow inactivation gate. Each of these gates is governed by HodgkinHuxley-type equations.” “x K1. is a time-independent inward rectification factor that is a function of voltage. Ko/5.4 represents the Ko dependence of the current.”

  4. First Run Results: Spiral Waves Inward Rectifying K+ Current Fast Na+ Current

  5. First Run Results:Tip Trajectories Inward Rectifying K+ Current Fast Na+ Current

  6. Increasing INa and IK1

  7. Keeping INa at 25%

  8. Keeping INa at 185%

  9. Keeping IK1 at 185%

  10. Second Run Results:Spiral WavesPETER!!!!!

  11. Second Run Results:Tip Trajectories

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