Pharmacology of Antiarrhytmic Drug M. Saifur Rohman, dr. SpJP. PhD. FICA Department of Cardiology and Vascular Medicine Faculty of Medicine, Brawijaya.
2007 cesena, congresso regionale, la sindrome di brugada
Arrhythmia
Vitamin d and cardiology
RESPONSE altering their biochemical &/or biophysical activity Depress Activate Replace Irritate Destroy PHARMACODYNAMICS Absorb Distribute.
Drug ? RESPONSE altering their biochemical &/or biophysical activity Depress Activate Replace Irritate Destroy PHARMACODYNAMICS Absorb
Cardiac Ion Channels Ling-Ping Lai, MD, PhD National Taiwan University Taipei, Taiwan.
ANTIARRHYTHMIC DRUGS 1. INTRODUCTION The heart contains specialized cells that exhibit automaticity; that is, they can generate rhythmic action potentials.
1 59-291 Section 3, Lecture 4 Antiarrhytmic drugs cont… Pathophysiology of Arrhythmia Abnormal impulse formation –Increased automaticity –Afterdepolarization.
Class I (Na + channel blockers) 1A: procainamide, quinidine (no longer recommended) 1B: lidocaine 1C: flecainide, propafenone Class II ( -blockers) non-selective:
Antiarrhythmic drugs. §2. Classification of antiarrhythmic drugs B. Electrophysiological effects and classification of antiarrhythmic drugs Prolongation.
RESPONSE To alter their biochemical &/or biophysical activity Depress Activate Replace Irritate Destroy PHARMACODYNAMICS Absorb Distribute.