#VeterinaryPharmacology #Antiarrhythmic #Arrhythmias
In this video, Mr. Jayvee B. Jauod (3-DVM) enumerates the adverse extra cardiac effects of the classes of antiarrhythmic drugs.
====
Antiarrhythmic Drugs
Therapeutic Use and Rationale
The ultimate goal of antiarrhythmic drug therapy is to restore normal rhythm and conduction. When it is not possible to revert to normal sinus rhythm, drugs may be used to prevent more serious and possibly lethal arrhythmias from occurring. Antiarrhythmic drugs are used to:
1. decrease or increase conduction velocity
2. alter the excitability of cardiac cells by changing the duration of the effective refractory period
3. suppress abnormal automaticity
All antiarrhythmic drugs directly or indirectly alter membrane ion conductances, which in turn alters the physical characteristics of cardiac action potentials. For example, some drugs are used to block fast sodium channels. These channels determine how fast the membrane depolarizes (phase 0) during an action potential. Since conduction velocity is related to how fast the membrane depolarizes, sodium channel blockers reduce conduction velocity. Decreasing conduction velocity can help to abolish tachyarrhythmias caused by reentry circuits. Other types of antiarrhythmic drugs affect the duration of action potentials, and especially the effective refractory period. By prolonging the effective refractory period, reentry tachycardias can often be abolished. These drugs typically affect potassium channels and delay repolarization of action potentials (phase 3). Drugs that block slow inward calcium channels are used to reduce pacemaker firing rate by slowing the rate of rise of depolarizing pacemaker potentials (phase 4 depolarization). These drugs also reduce conduction velocity at the AV node, because those cells, like SA nodal cells, depend on the inward movement of calcium ions to depolarize.
Classes of Drugs Used to Treat Arrhythmias
Classes of drugs used in the treatment of arrhythmias are given below. Clicking on the drug class will link you to the page describing the pharmacology of that drug class and specific drugs. Please note that many of the drugs comprising the first five listed classes have considerable overlap in their pharmacologic properties.
Antiarrhythmic drug classes:
Class I - Sodium-channel blockers
Class II - Beta-blockers
Class III - Potassium-channel blockers
Class IV - Calcium-channel blockers
Miscellaneous - adenosine
- electrolyte supplement (magnesium and potassium salts)
- digitalis compounds (cardiac glycosides)
- atropine (muscarinic receptor antagonist)
cvpharmacology.com/antiarrhy/antiarrhythmic
- VET PHARMA 2 | Antiarrhythmic Drugs: Adverse Effects | Module 15.5 (Student Output) ( Download)
- VET PHARMA 2 | Antihypertensive Drugs: Vasodilators (Directly Acting) | Module 16.1 (Student Output) ( Download)
- VET PHARMA 2 | Vasoconstrictors & their Clinical Uses | Module 16.3 (Student Output) ( Download)
- VET PHARMA 2 | Sources of Drugs: Oleoresins | Module 2.7 (Student Output) ( Download)
- VET PHARMA 2 | Antihypertensive Drugs: Vasodilators (Indirectly Acting) | Module 16.2 ( Download)
- VET PHARMA 2 | Coagulants, Hematinics & Anticoagulants | Module 17 (Student Output) ( Download)
- VET PHARMA 2 | Antifungal Drugs: Topical Agents | Module 28.2 (Student Output) ( Download)
- VET PHARMA 2 | Scope & Relevant Concepts of Veterinary Pharmacology | Module 2.1 ( Download)
- VET PHARMA 2 | Eicosanoids: Leukotrienes | Module 3 ( Download)
- VET PHARMA 2 | Autacoids (Introduction) | Module 3 ( Download)
- VET PHARMA 1 | Other Injectable Anesthetics & Dissociative Anesthetics| Student Output ( Download)
- Antiarrhythmic Drugs ( Download)
- VET PHARMA 2 | Histamine (Part 1) | Module 3 ( Download)
- Ek jhatke mein ho jayega The End 💔 ( Download)
- Rx Question Lab: Cardiac Pharmacology ( Download)
