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PHARMACOLOGY OF ANTI-ARRHYTHMICS

PHARMACOLOGY OF ANTI-ARRHYTHMICS. Arrhythmia (a-rhythm) means no rhythm,whereas dysrhythmia (dys-rhythm) means an abnormal heart rhythm. In practice,both terms are used interchangeably to mean an abnormal of irregular heart beat. Arrhythmia. Cardiac arrhythmias. 25% with digitalis.

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PHARMACOLOGY OF ANTI-ARRHYTHMICS

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  1. PHARMACOLOGY OF ANTI-ARRHYTHMICS

  2. Arrhythmia (a-rhythm) means no rhythm,whereas dysrhythmia (dys-rhythm) means an abnormal heart rhythm. In practice,both terms are used interchangeably to mean an abnormal of irregular heart beat. Arrhythmia

  3. Cardiac arrhythmias 25% with digitalis 50% Aneathetized patients over 80% with acute myocardial infarction

  4. Genesis of Normal Heart Rhythm Genesis of Tachyarrhythmia HeartRhythm Managing Tachyarrhythmias Antiarrhythmic Drugs

  5. Genesis of Normal Heart Rhythm: The Myocardial Action Potential

  6. (1) pacemaker activity(2) absence of fast Na+ current in SA and AV nodes, where slow inward Ca2+ current initiates action potentials. (3) long action potential ('plateau') and refractory period (4) influx of Ca2+ during the plateau. Electrophysiological Features

  7. Phase-4 Depolarizationresults in automaticity of the cardiac action potential, in normal SA nodal cells.

  8. The Effective Refractory Period(ERP)

  9. Genesis of Normal Heart Rhythm : Ion Channel

  10. 1 Classification of Arrhythmias 2 Enhanced Automaticity 3 Reentry 4 Afterpotentials Genesis of Tachyarrhythmia

  11. Classification of Arrhythmias Bradyarrhythmias Tachyarrhythmias

  12. Unidirectional Block and Reentry

  13. Late After Depolarization

  14. Managing Tachyarrhythmias: Strategies Sufficient Preparation Suppress enhancedautomaticity Prolong Effective Refractory Period Slow conduction in tissue • Depress resting membrane • potential

  15. Na+ Channel Blockers • β-adrenergic Blockers • Prolong ERP • Ca2+ Channel Blockers • Adenosine • Digoxin Class III Class I Class II Class IV Classification of Antiarrhythmic Drugs (Vaughan-Williams)

  16. Classification of antiarrhythmic drugs

  17. Class I: Na+ Channel Blockers

  18. Class I: Na+ Channel Blockers Guinidine

  19. Class II Antiarrhythmic Drugs: β1-adrenoceptor blockers

  20. How Sympathetic Stimulation Increases Heart Rate and Accelerates Conduction:

  21. Non-pacemaker Tissue:Sympathetic activity→Accelerated Conduction

  22. Pacemaker:β- adrenoceptor stimulation:→ ↑ automaticity

  23. Class II: β-adrenergic Blockers: Oppose effects of sympathetic tone • Reduce automaticity (including physiological) • Slow conduction • Mainly active in atrial & atrioventricular tissue • Reduce risk of sudden death after heart attack

  24. Class II: Examples •Propranolol • Metoprolol • many other -olol’s • Other aspects of pharmacology: look up autonomic pharmacology notes

  25. Class III: Drugs that Prolong Action Potential Duration & ERP

  26. Class III: Examples • Amiodarone 胺碘酮 • Sotalol 索他洛尔 (also β-blocker)

  27. Class IV Calcium Channel Blockers (also active in angina and hypertension)

  28. Adenosine • Adenosine receptors on atrial myocardium and atrioventricular conducting tissue • K+ channels are adenosine receptor-linked

  29. Adenosine: Pharmacology • Very rapid hydrolysis in blood – only IV use – rapid IV bolus • For supraventricular tachycardias (may help diagnosis)

  30. Effects of antidysrhythmic drugs on the different phases of the cardiac action potential

  31. Thank you!!

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