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DRUGS USED IN HEART FAILURE
I Wayan SumardikaPharmacology DepartmentFaculty of Medicine, Udayana University
HEART FAILURE
heart cannot pump enough blood to meet tissue needs for oxygen and nutrients
defect in myocardial contraction myocardial abnormality coronary atherosceloris congenital, valvular, hypertensive HEMODYNAMIC OVERLOAD
HOMEOSTATIC RESPONSE
Compensation response:
* Tachycardia
* Increase of peripheral resistention
* Salt and water retention
* Cardiomegali
Affected by: Neuro-simpatic system Renin-angiotensin aldosteron system
COMPENSATION RESPONSE Cardiac output
Carotid sinus firing Renal blood flow
Symphatetic discharge Renin release Force Rate Preload Afterload Remodelling Cardiac output (via compensation)
Classification of Heart FailureClass I—ordinary activity does not cause
S/SClass II—slight limitations, asymptomatic
at rest. Activity does result in fatigue, palpitations, dyspnea or anginal pain
Class III-marked limitation of physical activity. Less than ordinary activity causes fatigue, palpitations, dyspnea or angina
Class IV—any physical activity results in discomfort, s/s at rest.
New classification of heart New classification of heart failurefailure Stage A: Asymptomatic with no heart Stage A: Asymptomatic with no heart
damage but have risk factors for heart failuredamage but have risk factors for heart failure Stage B: Asymptomatic but have signs of Stage B: Asymptomatic but have signs of
structural heart damagestructural heart damage Stage C: Have symptoms and heart damageStage C: Have symptoms and heart damage Stage D: End stage diseaseStage D: End stage disease
ACC/AHA guidelines, 2001ACC/AHA guidelines, 2001
THERAPY
LIFE STYLE MODIFICATION
PHARMACOLOGICTREATMENT
DRUGS USED IN HEART FAILURE
Positive inotropic drugs Vasodilators Chronic failure
Cardiac glycosides Nitroprusside Loop diuretics Beta-blockers Beta agonists Nitrates ACE inhibitors Spironolactone PDE Inhibitors Hydralazine Thiazides
CARDIAC GLYCOSIDES
Digitalis (Digitalis purpura or Digitalis lanata)
digoxin digitoxin lanatoside A, B, C (cedilanid D)
Has a narrow therapeutic window Clinical Uses:
Congestive heart Failure Atrial fibrilation
CARDIAC GLYCOSIDES
Mechanism of Action inhibits Na+K+-ATP-ase
Na+ pump (Na+K+Ca++ exchange) Ca++ intracellular heart contraction
heart contraction : efficient
CARDIAC GLYCOSIDES
CARDIAC GLYCOSIDES
strengthen of heart muscle contraction
(positive inotropic effect) decrease of the rate of heart contraction
(negative chronotropic effect)
heart contraction : efficient
Drugs Interaction: Quinidine digoxin clearance
CARDIAC GLYCOSIDES
Side effect/Toxicity: nausea, vomitus, diarrhoea disturbance of color vision cardiac arrhythmias heart block, extrasystole
Treatment: Correction of potassium or
magnesium Antiarrhytmic drugs Digoxin antibodies
DIURETICS
1. Carbonic Anhidrase Inhibitors (acetazolamide)
2. Loop Diuretic (Furosemide, Bumetanide, Torsemide)
3. Thiazide (HCT)
4. Potassium-Sparing Diuretics (Spironolactone, Triamterene, Amiloride)
5. Osmotic Diuretic (Mannitol, Glycerin)
6. ADH Antagonist
DIURETICS
Used in acute and chronic heart failure. Loop diuretics when degree of renal insufficiency
present. Decrease plasma volume and increase excretion of
sodium and water. Decreases preload. Will also need meds to enhance cardiac contractility and
vasodilatation. Cautious administration and monitoring of potassium
DIUTERTICS
DIURETICSDiuretics
inhibition of tubular Na+ reabsorption
diuresis (Na+ and water loss)
body water volume - blood
blood pressure
heart work load
preload
DIURETICS(especially longterm use of thiazide)
inhibition of tubular Na+ reabsorption
intracellular Na+
intracellular Ca2+
vasodilatation
blood pressure
heart workload
DIURETICS(especially furosemide and thiazide)
inhibition of tubular Na+ reabsorption
diuresis (Na+ and water loss)
Na+ and K+ loss
hypokalemia
the risk of cardiac arrhytmia
ANGIOTENSIN ANTAGONIST
ACEI (Captopril) and Receptor blocker (Losartan)
Reduce morbidity and mortality Reduce aldosteron secretion, salt and
water retention, and vascular resistance With diuretic, first line drugs for chronic
heart failure
PHOSPHODIESTERASE INHIBITORS
Short term use in acute, severe heart failure that is not controlled by digoxin, diuretics and vasodilators
Increase cAMP by inhibiting phosphodiesterase (metabolizes cAMP)
Relax vascular smooth muscle so decrease preload and afterload
Amrinone and Milranone Milranone long half-life, more potent than Amrinone
and has fewer side effects. Side effects include: tachycardia, dysrhythmias,
hypotension.
BETA1-SELECTIVE ADRENOCEPTOR AGONIST
Dobutamine and Dopamine Acute heart failure (Systolic function is
depressed) Not appropriate for chronic failure
ToleranceLack of oral efficacyArrhytmogenic effect
BETA-ADRENOCEPTOR ANTAGONIST
Carvedilol, Labetalol, Metoprolol Reduce progression of chronic heart
failure Not effective for Acute failure
VASODILATORS
Mechanism of Action Release of nitric oxide: Hydralazine, Nitroprusside
Opening of potassium channels: Minoxidil, Diazoxide
Reduction of calcium influx: Verapamil, Diltiazem,
Nifedipine
VASODILATORS
vasodilator
Release of nitric oxide, opening potassium channel, blockade of
calcium channels
vasodilatation of arteriolae, capiler and venulae
peripheral vascular resistance venous return
cardiac work load
DRUGS USED IN ANGINA PECTORIS
I Wayan SumardikaPharmacology DepartmentFaculty of Medicine, Udayana University
1. Acute angina pectoris (exercise, spasm, emboli)
2. Stable angina pectoris
(exercise - atheroma predictable)
3. Unstable angina pectoris
(resting embolus myocardian infarction)
4. Varian – Prinzmetal angina pectoris
(coronary spasm)
Angina pectoris
Therapy of ANGINA PECTORIS
increase coronary blood flow
coronary vasodilators
decrease myocardial oxygen demand decrease heart contraction (-blockers and Ca Channel Blocker.)
antithrombus aspirin, heparin (for unstable angina)
Nitrate dan nitrite (amilnitrite, nitroglyserine, isosorbide dinitrate)
Calcium antagonists (verapamil,diltiaze, nifedipin)
Beta-blockers (acebutolol, atenolol, propranolol)
NITRATES
Nitroglycerine First-pass effect----90% Mechanism of Action
Nitrates are converted to nitric oxide in vascular smooth muscle. Activates guanylate cyclase affecting cAMP. Decreases calcium levels in smooth muscle thus decreased contraction of smooth muscle. End result: vasodilation.
NITRATES
NITRATES
Contraindications are: Increased ICP, males taking phosphodiesterase enzyme type 5 inhibitors
CALCIUM CHANNEL-BLOCKING DRUGS
Nifedipine, Dihydropiridine, Diltiazem, Verapamil Block voltage-gated “L-type” calcium channels
(most important in cardiac and smooth muscle) For profilactic therapy of effort and vasospastic
angina Nifedipine used to abort acute anginal attack Atherosclerotic angina, combined with nitrate SE: constipation, pretibial edema, nausea,
flushing, and dizzines
Improve blood supply to myocardium by dilating coronary arteries
Decrease workload of heart by dilating peripheral arteries
Reduce coronary vasospasm Slow rate of ventricular response in atrial fibrillation,
flutter and supraventricular tachydysrhythmias Lower blood pressure by dilating peripheral arteries
BETA-BLOCKING DRUGS
Effective in the prophylactic therapy of atherosclerotic angina, not for acute attack
Beneficial effect: Decreased heart rate, cardiac force, blood pressure
Detrimental effect: Increased heart size, longer ejection period.
Tachycardia and increased cardiac force because of Nitrate can be reduced by Beta Blockers
Block beta 1 receptors which increase heart rate and force of myocardial contraction, so increase MVO2 consumption.
Reduce heart rate and contractility. Enhance blood flow.
Block response to sympathetic neurotransmitters
Caution in asthmatics and those with COPD
Inderal (propranolol) is prototype. Metabolized by liver.Need greater doses po due to liver metabolism.
Tenormin (Atenolol), Lopressor (metoprolol )and Corgard (nadolol)—long half lives so given once daily.
Usually end in -ol
Aspirin Antilipidemics—statins antihypertensives
THANK YOUTHANK YOU
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