Antiarrhythmic Drugs, Animation
(USMLE topics, cardiology) The 5 classes of agents according to Vaughan Williams classification, mechanism of action. This video is available for instant download licensing here: https://www.alilamedicalmedia.com/-/galleries/narrated-videos-by-topics/ekgecg/-/medias/ae7a41e8-70e1-4449-9709-6572f63e7534-antiarrhythmic-drugs-narrated-animation
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Voice by: Sue Stern.
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ANTI-Arrhythmic agents are drugs used to SUPPRESS abnormal rhythms of the heart. They act to either:
- interfere with the dynamics of cardiac action potentials by blocking a certain ion channel,
or
- block the sympathetic effects of the autonomic nervous system on the heart, to slow down heart rate.
There are 5 classes of antiarrhythmic drugs:
- Class I: Sodium-channel blockers: these drugs bind to and block the fast sodium channels that are responsible for the DE-polarizing phase in contractile myocytes. The result is a SLOWER depolarization with a smaller amplitude. This REDUCED conduction velocity helps to SUPPRESS formation of re-entrant circuits, hence the use of these drugs for treating re-entrant tachycardias.
Class I agents are divided further into subclass IA, IB and IC. These subclasses differ in the STRENGTH of sodium channel blockage, and in their effect on the duration of action potentials and the effective refractory period, the ERP. While subclass IC has no effect on ERP, IA prolongs and IB shortens ERP, respectively. Changes in ERP may have different outcomes for different types of arrhythmias. A longer ERP generally reduces cardiac excitability, but prolonged repolarizations may increase the risk of torsades de pointes, a type of tachycardia caused by afterdepolarizations.
- Class II: Beta-blockers: these drugs bind to beta1-adrenergic receptors and block the sympathetic influences that act through these receptors. Sympathetic nerves release catecholamines which act to increase SA node firing rate and cardiac conductibility, especially at the AV node. Useful in treatment of tachycardias that originate upstream of the AV node, known as supraventricular tachycardias, or SVT.
- Class III: Potassium-channel blockers: these agents block the potassium channels responsible for the repolarizing phase. The result is a SLOWED repolarization, hence a PROLONGED duration of action potentials and refractory period. This reduces the heart’s excitability and suppresses re-entrant tachycardias. However, these drugs may also CAUSE arrhythmias because slow repolarizations are associated with LONGER QT intervals and INcreased risks of torsades de pointes.
- Class IV: Calcium-channel blockers: these drugs block calcium channels that are responsible for DE-polarization in SA and AV nodal cells. Blocking these channels results in a LOWER sinus rate and SLOWER conduction through the AV node. However, because calcium is also involved in cardiac myocyte contraction, these agents also reduce contractility of the heart and should not be used in case of systolic heart failures.
- Class V includes all drugs that act by other or unknown mechanisms.
Видео Antiarrhythmic Drugs, Animation канала Alila Medical Media
©Alila Medical Media. All rights reserved.
Voice by: Sue Stern.
Support us on Patreon and get FREE downloads and other great rewards: https://www.patreon.com/AlilaMedicalMedia/posts
All images/videos by Alila Medical Media are for information purposes ONLY and are NOT intended to replace professional medical advice, diagnosis or treatment. Always seek the advice of a qualified healthcare provider with any questions you may have regarding a medical condition.
ANTI-Arrhythmic agents are drugs used to SUPPRESS abnormal rhythms of the heart. They act to either:
- interfere with the dynamics of cardiac action potentials by blocking a certain ion channel,
or
- block the sympathetic effects of the autonomic nervous system on the heart, to slow down heart rate.
There are 5 classes of antiarrhythmic drugs:
- Class I: Sodium-channel blockers: these drugs bind to and block the fast sodium channels that are responsible for the DE-polarizing phase in contractile myocytes. The result is a SLOWER depolarization with a smaller amplitude. This REDUCED conduction velocity helps to SUPPRESS formation of re-entrant circuits, hence the use of these drugs for treating re-entrant tachycardias.
Class I agents are divided further into subclass IA, IB and IC. These subclasses differ in the STRENGTH of sodium channel blockage, and in their effect on the duration of action potentials and the effective refractory period, the ERP. While subclass IC has no effect on ERP, IA prolongs and IB shortens ERP, respectively. Changes in ERP may have different outcomes for different types of arrhythmias. A longer ERP generally reduces cardiac excitability, but prolonged repolarizations may increase the risk of torsades de pointes, a type of tachycardia caused by afterdepolarizations.
- Class II: Beta-blockers: these drugs bind to beta1-adrenergic receptors and block the sympathetic influences that act through these receptors. Sympathetic nerves release catecholamines which act to increase SA node firing rate and cardiac conductibility, especially at the AV node. Useful in treatment of tachycardias that originate upstream of the AV node, known as supraventricular tachycardias, or SVT.
- Class III: Potassium-channel blockers: these agents block the potassium channels responsible for the repolarizing phase. The result is a SLOWED repolarization, hence a PROLONGED duration of action potentials and refractory period. This reduces the heart’s excitability and suppresses re-entrant tachycardias. However, these drugs may also CAUSE arrhythmias because slow repolarizations are associated with LONGER QT intervals and INcreased risks of torsades de pointes.
- Class IV: Calcium-channel blockers: these drugs block calcium channels that are responsible for DE-polarization in SA and AV nodal cells. Blocking these channels results in a LOWER sinus rate and SLOWER conduction through the AV node. However, because calcium is also involved in cardiac myocyte contraction, these agents also reduce contractility of the heart and should not be used in case of systolic heart failures.
- Class V includes all drugs that act by other or unknown mechanisms.
Видео Antiarrhythmic Drugs, Animation канала Alila Medical Media
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