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Part 6 Antianginal Drugs

Part 6 Antianginal Drugs. Organic nitrates  receptor blockers Calcium channel blockers. 1. OVERVIEW. Coronary vessels: blood supply for the heart. Coronary atherosclerosis: cause of cardiac ischemia. Distribution of coronary arteries in the heart. Ischemia ( angina pectoris ):

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Part 6 Antianginal Drugs

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  1. Part 6Antianginal Drugs Organic nitrates  receptor blockers Calcium channel blockers

  2. 1. OVERVIEW Coronary vessels:blood supply for the heart

  3. Coronary atherosclerosis: cause of cardiac ischemia

  4. Distribution of coronary arteries in the heart

  5. Ischemia (angina pectoris): imbalance between oxygen demand and supply

  6. 1. OVERVIEW Classification of angina pectoris: Exertional angina (劳累性心绞痛) Stable angina (稳定性心绞痛) Initial onset angina (初发型心绞痛) Accelerated angina (恶化性心绞痛) Spontaneous angina (自发性心绞痛) Angina decubitus (卧位型心绞痛) Variant or vasospastic angina (变异性[痉挛性]心绞痛) Acute coronary insufficiency (急性冠脉功能不全) Postinfarction angina (梗死后心绞痛) Mixed angina (混合性心绞痛) Unstable angina(不稳定性心绞痛)

  7. 1. OVERVIEW Myocardial oxygen demand is chiefly determined by: • Contractility • Heart rate • Wall tension • Preload (venous return ) • Afterload (arteriolar resistance) afterload preload

  8. 1. OVERVIEW Myocardial oxygen demand is diminishedby: • Reducing contractility • Reducing heart rate • Reducing the preload • Reducing the afterload Wall tension 

  9. 1. OVERVIEW • Myocardial oxygen supply is chiefly determined by: • AV oxygen difference • Regional myocardial distribution • coronary blood flow: • vascular resistance, artery pressure

  10. 1. OVERVIEW Effects of antianginal drugs: Reducing oxygen demands Reducing heart rate and contractility Dilating systemic arteries and veins (  wall tension by lowering heart loads) Increasing oxygen supply Dilating conduct coronary arteries (  coronary blood flow) Promoting regional distribution (  in ischemic regions) Others: Anti- platelet coagulation and thrombus formation

  11. 2. Antianginal drugs 2.1 Nitrates Nitroglycerin(硝酸甘油) A. Pharmacological actions Dilating vessels and reducing heart loads wall tension ; reflex tachycardia Redistribution of coronary circulation dilating conduct artery: collateral circulation  reducing wall tension: blood flow in ischemic subendocardial area 

  12. 2. Antianginal drugs Influence of organic nitrates and dipyridamole on the blood supply of ischemic area

  13. 2. Antianginal drugs Mechanism of the effect of nitroglycerin and other nitrates

  14. Mechanism of the effect of nitroglycerin and other nitrates

  15. 2. Antianginal drugs B. Clinical uses • Angina pectoris: all kinds, especially stable type • Heart failure:reducing heart loads due to vasodilation C. Adverse reactions • Increase in heart rate and contractility • Symptoms due to vasodilation:headache, flash, postural hypotension, collapse, ect. • Others: methaemoglobinaemia(高铁血红蛋白) • Tolerance : avoiding steady-state plasma concentration; • supplement of agents containing –SH (captopril)

  16. 2. Antianginal drugs 2.1 Other nitrates Isosorbide dinitrate (硝酸异山梨酯) Isosorbide-5-mononirate (5-硝酸异山梨酯) Compared with nitroglycerin: • Similar but weaker effect • Acting slowly but lasting longer • Larger individual variation and more adverse effects

  17. 2. Antianginal drugs 2.2  receptor blockers A. Pharmacological action • Reducing oxygen demand: • heart rate and contractility  • Increasing oxygen supply: • diastolic period : perfusion time  • vascular tone in normal regions : • blood flow in ischemic regions  • Others: • Improving myocardial metabolism • Inhibiting coagulation of platelets

  18. 2. Antianginal drugs B. Clinical uses stable and unstablepectoris, especially associated with hypertension or arrhythmias, even with myocardial infarction; but not used forvariant angina pectoris C. Notes • Dose individualization: starting from small dose • Withdraw gradually and slowly: symptomrebound • Combination with nitroglycerin

  19. 2. Antianginal drugs 2.3 Calcium channel blockers

  20. 2. Antianginal drugs 2.3 Calcium channel blockers A. Pharmacological actions • Reducing myocardial oxygen remand: • heart loads : nifedipine • heart rate and contractility:verapamil and diltiazem • Increasing myocardial blood supply • Protecting ischemic myocardial cells • Inhibiting coagulation of platelets

  21. Actions of calcium channel blockers

  22. 2. Antianginal drugs B. Clinical uses stable and variant type: nifedipine, verapamil, diltiazem unstable type: verapamil, diltiazem Actions of DHP (like nifedipine) are similar to those of nitroglycerin Actions of verapamil and diltiazem are similar to those of  blockers

  23. 2. Antianginal drugs 2.4 Other drugs ACEIs (血管紧张素转化酶抑制药) • Treating hypertension and preventing ischemic heart disease • Reducing heart loads • Inhibiting cardial remodeling Nicorandil (尼可地尔) • Opening ATP-sensitive K+ channel (KATP) • Lowering intracellular Ca2+ • Providing NO (like nitroglycerin) • Inducing ischemic preconditioning

  24. 2. Antianginal drugs Molsidomine (吗多明) • Inhibiting adenosine uptake and cAMP degradation • Inhibiting pletelet aggregation • Promoting collateral circulation after long-term use Dipyridamole (双嘧达莫,潘生丁) • Inhibiting adenosine uptake and cAMP degradation • Inhibiting pletelet aggregation • Promoting collateral circulation after long-term use

  25. 3. Summary of antianginal drugs nitroglycerin blockers Ca2+ antagonistscombination* Heart rate    Contractility    / Wall tension  / / Oxygen demand   Blood pressure    : increase,  : markedly increase; : decrease,  : markedly decrease; : variable according to the dose and effect of each drug ; *  blockerscombined with nitroglycerin or Ca2+ antagonists (nifedipine; combination with verapamil/diltiazem not be recommendated) Caution:Combination may potentiate the antianginal effects, but may induce severe hypotension

  26. Cardiovascular pharmacology Sammary

  27. Overview of Cardiovascular Diseases • Common Cardiac Diseases • Abnormal contractility:Heart failures • Abnormal rhythms:Arrhythmias • Abnormal blood supply:Ischemic heart diseases • Myocardial disorders • Common vascular diseases • Abnormal systematic resistance:Hypertension • Dysfunction of coronary vessels:Coronary vascular diseases • Dysfunction of cerebral vessels:Cerebral ischemia, hemorrhage • Dysfunction of pulmonary vessels:Pulmonary hypertension • Dysfunction of peripheral vessels: Peripheral vascular disorder • Arteriosclerosis: basis of most CVS diseases

  28. Overview of Cardiovascular Drugs • Classification based on target organs/tissues • Heart:Heart failures, arrhythmias, cardiac ischemia • Vessels:Vasodilatation, vasoconstriction, arteriosclerosis • Classification based on the mechanisms • Ion channels:Ca2+, Na+, K+ channels • Receptors:Adrenoceptors, AT1 receptors, etc. • Enzymes:ACEI, Na+-K+-ATPase, HMG-CoA reductase • Others:Diuretics

  29. Cardiovascular Drugs • Antiarrhthemic drugs • Classification; Typical drugs and their properties • Antihypertensive drugs • Classification; Properties of 6 main drug classes • Drugs for treating heart failure • Classification; ACEIs,  blockers, cardiac glycoide • Antiatheroscleotic drugs • HMG CoA reductase inhibitors (statins) • Antianginal drugs • Nitroglycerin;  blockers; Ca2+ antagonists

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