1. Drugs for Heart Failure 18

2. 1.Identify the major risk factors that accelerate the progression to heart failure. 2.Relate how the classic symptoms associated with heart failure may be caused by weakened heart muscle. 3.Identify drug classes that are used for first- and second- choice pharmacotherapy of heart failure.

3. 4.Explain several means by which patients may control their heart failure without drugs. 5.For each of the classes listed in the Drug Snapshot, identify representative medications and explain the mechanism of drug action, primary actions, and important adverse effects.

4. 6.Categorize heart failure drugs based on their classification and mechanism of action.

5. Heart failure is closely associated with disorders such as chronic hypertension, coronary artery disease and diabetes. Weakening of the cardiac muscle is a natural consequence of aging, the process can be accelerated by a number of disorders that are related to heart failure.

6. The inability of the ventricles to pump enough blood to meet the body’s metabolic demands. Treatment goals Prevent, Treat, or Remove the underlying causes, Improve quality of life, Extend life expectancy.

8. The central cause of heart failure is weakened heart muscle.

9. Normal Physiology: The right side of the heart receives blood from the venous system and sends it to the lungs Blood receives oxygen and looses carbon dioxide Blood returns to the left side of the heart and sends it to the rest of the body The amount of blood received by the right side of the heart should exactly equal that sent out by the left side of the heart. If this does not occur HF can occur

10. Preload Before the chambers of the heart contract (systole), they are filled to their max capacity with blood. The degree to which the heart fibers are stretched just prior to contraction is preload The more they are stretched, the more forcefully they will contract. Strength of contraction is called contractility.

11. Afterload The pressure in the aorta that must be overcome for blood to be ejected from the left side of the heart and ultimately to the entire body

13. Skin cyanotic and clammy Anxiety, restlessness Upright posturing Persistent cough Rapid breathing Tachycardia Edema of the lower limbs Signs & Symptoms of Bilateral Failure

14. Skin cyanotic and clammy upright posture / leaning forward / persistent cough rapid breathing ALL forms of CHF lead to decreased oxygen to the tissues

15. Causes decreased blood to the lungs edema of lower limbs leads to blood backing up in venous circulation fast heart rate

16. The three primary characteristics of heart function are force of contraction, heart rate, and speed of impulse conduction.

17. Force of Contraction Ability to change the force of contractions is the goal of pharacotherapy Ability to increase the strength of contraction is called the positive inotropic effect Fundamental characteristic of cardiac glycosides

18. Heart Rate A faster heart works harder but not necessarily more efficiently A slower heart has a longer time to rest between beats, decreasing the workload on the heart. Speed of Impulse Conduction Slowing the conduction speed will cause the heart to beat slower, decreasing the workload of the heart

20. The specific therapy for heart failure depends on the severity of the disease.

21. Stop using tobacco Limit salt (sodium) intake and be sure to eat foods rich in potassium and magnesium Limit alcohol consumption

22. Implement a medically supervised exercise plan Learn and use effective ways to deal with stress Reduce weight to an optimal level Limit caffeine consumption

23. Angiotensin-converting enzyme (ACE) inhibitors are the preferred drugs for heart failure.

24. Affect the renin-angiotensin-aldosterone system Lower blood pressure Reduce the workload on the heart Reduce peripheral edema

25. Increase cardiac output. Very effective Relatively low potential for serious adverse effects First-choice drugs in the treatment of HF. “pril” drugs Watch for a dry cough

26. Diuretics relieve symptoms of heart failure by reducing fluid overload and decreasing blood pressure.

27. Commonly used for the treatment of HF Few adverse effects

28. Effective at increasing urine flow, lowering blood volume, and reducing edema and congestion. Reduce fluid overload and lower blood pressure The workload on the heart is reduced Cardiac output increases Usually prescribed in combination with ACE inhibitors and other HF medications

29. Cardiac glycosides increase the force of myocardial contraction and were once the traditional drugs of choice for heart failure.

30. Aka: digitalis glycoside Primary action of digoxin increase in the force of contraction positive inotropic effect allows the weakened heart to eject more blood per beat - increasing cardiac output.

31. A second important action slow electrical conduction through the heart. fewer beats per minute. Reduced heart rate, combined with more forceful contractions, allows for much greater efficiency of the heart.

32. Cardiac Glycosides Adverse Effects Margin of safety for toxicity is very small narrow “therapeutic window” Vomiting / diarrhea Extreme bradycardia (can be fatal) Pulse rate should be between 60-100 bpm Loss of appetite

33. Very sensitive to low potassium levels low K + leads to increased dig. toxicity at any concentration Serum digoxin levels should be monitored When taking furosemide (Lasix), a diuretic, monitor very closely. Lasix is a K-wasting diuretic. Low levels of K potentiate dig toxicity digoxin levels over 1.8ng/ml are toxic

34. Arrhythmias/dysrrhythmias Green halos around lights Confusion-you must know your patients mental state to be able to recognize confusion Arrhythmias !!! In children is the first sign of “dig” toxicity

35. Cardiac Glycosides Antidote Digoxin immune fab (Ovine (sheep) ) Binds with digoxin preventing it from reaching tissues Onset less than 1 minute Given IV

36. Beta-adrenergic blockers are used in combination with other drugs to slow the progression of heart failure.

37. Block the cardiac actions of the sympathetic nervous system Slowing the heart rate Reducing blood pressure Workload on the heart is decreased

38. Vasodilators reduce symptoms of heart failure by decreasing cardiac workload.

39. Two direct-acting vasodilators Hydralazine (Apresoline) Isosorbide dinitrate (Isordil) Act directly on vascular smooth muscle Relax blood vessels Lower blood pressure.

40. Phosphodiesterase inhibitors and other miscellaneous drugs are used for short-term therapy of advanced heart failure.

41. Block the enzyme phosphodiesterase in cardiac and smooth muscle. Increases the amount of calcium available for myocardial contraction. Two main actions that benefit patients with HF: An increased force of contraction (positive inotropic response) Vasodilation