Cardiovascular Pharmacology Concepts

Richard E. Klabunde, Ph.D.

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Clinical Disorders:

Angina

Arrhythmias

Edema

Heart Failure

Systemic Hypertension

Pulmonary Hypertension

Hypotension

Myocardial Infarction

Therapeutic Classes:

Antianginal

Antiarrhythmic

Antihypertensive

Cardioinhibitory

Cardiostimulatory

Diuretic
Pressor

Thrombolytic

Vasoconstrictor

Vasodilator

Mechanism Classes:

Click here to see list

 

Click here for information on Cardiovascular Physiology Concepts, a textbook published by Lippincott Williams & Wilkins (2005)

 

Tutorial - Antiarrhythmic Drugs

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Underlying Mechanisms of Drug Action

  1. How does changing the slope of phase 4 of sinoatrial node action potentials affect heart rate?  click here

  2. How does changing the slope of phase 0 of action potentials affect conduction velocity?  click here

  3. How does changing the duration of phase 3 affect the effective refractory period?  click here

  4. How can changing conduction velocity and the effective refractory period abolish reentry tachyarrhythmias?  click here

Antiarrhythmic Drugs

  1. What is the Vaughan-Williams classification scheme?  click here

  2. What are the primary and secondary antiarrhythmic mechanisms for each of the following classes of antiarrhythmic drugs? 
        Class I
        Class II
        Class III
        Class IV

  3. How do Class IA, IB, and IC drugs differ in their direct and indirect effects on non-nodal action potentials?  click here

  4. How do Class IA, IB, and IC drugs affect conduction velocity within the heart?  click here

  5. Class IA, IB and IC drugs are used for which types of arrhythmias?  click here

  6. What are some side-effects and contraindications for Class IA, IB, and IC drugs?  click here

  7. What is the primary mechanism by which Class II drugs suppress arrhythmias?  click here

  8. Class II drugs are used to treat which types of arrhythmias?  click here

  9. Which Class II drugs are selective and which are non-selective beta-blockers?  click here

  10. What is intrinsic sympathomimetic activity and membrane stabilizing activity, and how do these properties affect the antiarrhythmic properties of Class II drugs?  click here

  11. What are some side-effects and contraindications for Class II drugs?  click here

  12. What is the primary mechanism by which Class III drugs suppress arrhythmias?  click here

  13. Class III drugs are used to treat which types of arrhythmias?  click here

  14. What are some side-effects and contraindications of Class III drugs?  click here

  15. What is the primary mechanism by which Class IV drugs suppress arrhythmias?  click here

  16. How do verapamil and diltiazem differ from dihydropyridine calcium-channel blockers in terms of cardiac selectivity?  click here

  17. Class IV drugs are used to treat which types of arrhythmias?  click here

  18. What are some side-effects and contraindications of Class IV drugs?  click here

  19. Describe the pharmacology for each of the following drugs and how they are used in the treatment of arrhythmias:
       adenosine
       magnesium and potassium salts
       digitalis compounds (cardiac glycosides)
       atropine (muscarinic receptor antagonist)

  20. Which drugs are used to treat the following arrhythmias?  click here

      Sinus tachycardia

      Atrial fibrillation/flutter

      Paroxysmal supraventricular tachycardia

      AV block

      Ventricular tachycardia

      Premature ventricular complexes

      Digitalis toxicity

Revised 08/29/06

 

DISCLAIMER: These materials are for educational purposes only, and are not a source of medical decision-making advice.

© 2005-2008Ed  Richard E. Klabunde, all rights reserved.