Heart Failure Treatment

Question 1

Chronic heart failure is a syndrome characterised by what?

Answer 1

Progressive cardiac dysfunction 
Breathlessness
Tiredness
Neurohormonal disturbances
Sudden death

Question 2

What are the types of heart failure and their features?

Answer 2

Systolic HF - decreased pumping function of the heart which results in fluid back-up in the lungs and heart failure

Diastolic HF - involves a thickened and stiff heart muscle, as a result the heart does not fill up with blood properly which results in fluid back-up in the lungs and heart

Question 3

What percentage of the population are affected by chronic heart failure?

Answer 3

2-10%

Question 4

What is the 5-year mortality of heart failure?

Answer 4

50%, rising to 80% in a year for some patients

Question 5

What are the risk factors for heart failure?

Answer 5

Coronary artery disease 
Hypertension
Valvular heart disease 
Alcoholism
Infection
Diabetes
Congenital heart defects
Obesity
Age
Smoking 
High or low haematocrit level 
Obstructive sleep apnoea

Question 6

What is the basic pathological progression of cardiovascular disease?

Answer 6

Cause/risk factor
Myocardial injury, neurohormonal stimulation and myocardial toxicity
Pathological remodelling
Low ejection fraction, resulting in symptoms (dyspnoea, fatigue, oedema etc.)
Chronic heart failure

Question 7

What is involved in neuroendocrine activation in heart failure?

Answer 7

Salt and water retention

Activation of:
RAAS
Sympathetic system
Endothelin system 
Natriuretic peptide system ANP/BNP
EDRF

Question 8

What are the two main aims of treatment for heart failure?

Answer 8

To improve symptoms

To improve survival

Question 9

What are the types of treatment regimens for heart failure?

Answer 9

Inhibition of neurohormonal adaptations
Enhancement of beneficial neurohormonal adaptations
Enhancement of cardiac function

Question 10

What drugs are used for symptomatic heart failure treatment?

Answer 10

Diuretics
Digoxin
ACE inhibitors/ARBs

Question 11

How do loop diuretics treat heart failure?

Answer 11

Removes excess salt and water - induce profound diuresis
Inhibit the Na-K-CL transporter in the loop of Henle
Prevent reabsorption of 20% of filtered sodium and water
Work at low glomerular filtration rates

Question 12

What can be used in diuretic resistant patients?

Answer 12

A combination of thiazide diuretics

Question 13

What are the potential adverse drug reactions of loop diuretics?

Answer 13

Dehydration
Hypotension
Hypokalaemia
Hyponatraemia
Gout 
Impaired glucose tolerance/diabetes

Question 14

What are the potential drug-drug interactions of loop diuretics?

Answer 14

Furosemide and aminoglycosides - aural and renal toxicity
Furosemide and lithium - renal toxicity
Furosemide and NSAIDs - renal toxicity
Furosemide and anti-hypertensives - profound hypotension
Furosemide and vancomycin - renal toxicity

Question 15

What drugs are used to block the effects of angiotensin II in the RAAS?

Answer 15

ACEIs e.g. ramipril

Angiotensin antagonists e.g. valsartan, losartan

Question 16

What drug can be used to block the effects of aldosterone?

Answer 16

Spironolactone

Question 17

What is the risk reduction carried by ACEIs?

Answer 17

35%

Question 18

What pathophysiologies do ACEIs interfere with?

Answer 18

Pathophysiology of coronary ischaemia and renal insufficiency

Question 19

Give examples of ACEIs

Answer 19

Ramipril
Enalapril
Lisinopril

Question 20

How do ACEIs work?

Answer 20

Competitively block angiotensin converting enzyme to prevent the conversion of angiotensin I to angiotensin II
Reduce preload and afterload on the heart

Question 21

What effect do ACEIs have on CHF patients?

Answer 21

Significantly reduce morbidity and mortality

Question 22

What effect do ACEIs have on post-MI patients?

Answer 22

Reduce morbidity, mortality and onset of HF

Question 23

What are the potential adverse drug reactions of ACEIs?

Answer 23

First dose hypotension
Cough 
Angioedema
Renal impairment
Renal failure 
Hyperkalaemia

Question 24

What are the potential drug-drug interactions of ACEIs?

Answer 24

NSAIDs - acute renal failure
Potassium supplements - hyperkalaemia
Potassium sparing diuretics - hyperkalaemia

Question 25

How do angiotensin receptor blockers work?

Answer 25

Selectively block the angiotensin II AT1 receptor

Question 26

When are ARBs recommended in heart failure?

Answer 26

In ACEI intolerant patients

Question 27

What is sacubitril-valsartan?

Answer 27

Combination drug of ARB and neprilysin inhibitor

Question 28

How does sacubitril-valsartan work?

Answer 28

ARB (valsartan) blocks AT1 receptor

Neprilysin is responsible for the degradation of ANP and BNP, sacubitril inhibits neprilysin

Question 29

What is spironolactone?

Answer 29

Potassium sparing diuretic

Question 30

How does spironolactone work?

Answer 30

Inhibits the actions of aldosterone

Acts in the distal tubule

Question 31

How is spironolactone used in heart failure?

Answer 31

Used in combination with loop diuretics

Particularly useful in resistant oedema

Question 32

When does spironolactone reduce mortality?

Answer 32

When used in combination with ACEIs

Question 33

Heart failure usually occurs following what?

Answer 33

Sustained hypertension or myocardial damage
Cardiac output falls and body registers this as a loss in circulatory volume, RAAS and vasoconstrictor systems are activated

Question 34

What does activation of the RAAS cause?

Answer 34

Release of angiotensin II and aldosterone

This results in salt and water retention, vasoconstriction and hypertrophy and fibrosis of cardiac myocytes

Question 35

What does activation of the sympathetic system cause in heart failure?

Answer 35

Release of noradrenaline and adrenaline which cause vasoconstriction, renin release and myocyte hypertrophy

Question 36

What relationship is lost (Frank Starling law) in a failing or damaged heart?

Answer 36

If the muscle of a healthy heart is stretched it will contract with greater force and pump out more blood - lost in HF

Question 37

What happens in heart failure as circulatory volume increases?

Answer 37

Heart dilates, force of contraction weakens and cardiac output drops further
Decreased cardiac output then activates the RAAS further

Question 38

Why is the heart further weakened as it starts to dilate?

Answer 38

Cardiac myocytes undergo hypertrophy and then fibrosis as the heart dilates so it is further weakened

Question 39

How do positive inotropes improve HF?

Answer 39

Improve the ability of the heart to pump - increase availability of calcium in the myocyte

Question 40

What positive inotrope is used in HF?

Answer 40

Digoxin

Question 41

How do nitrovasodilators work?

Answer 41

By reducing preload and afterload to improve cardiac function

Question 42

What nitrovasodilators are used in HF?

Answer 42

Isosorbide mononitrate

Isosorbide denigrate

Question 43

What beta blockers have proven benefit in HF?

Answer 43

Carvedilol
Bisprolol
Metoprolol

Question 44

What is the relative risk reduction carried by beta blockers?

Answer 44

38%

Question 45

What might beta blocker use precipitate in CHF?

Answer 45

Severe deterioration

Question 46

What is the reduction in morbidity and mortality in mild/moderate and severe heart failure caused by beta blockers?

Answer 46

30%

Question 47

When is ivabradine used in HF?

Answer 47

If intolerant to beta blockers

Question 48

How does ivabradine work?

Answer 48

Specific inhibitor of the If current in the sinoatrial node

Question 49

What does ivabradine not modify?

Answer 49

Myocardial contractility and intra-cardiac conduction

Question 50

What are the potential adverse drug reactions of digoxin?

Answer 50

Arrhythmias
Nausea
Confusion

Question 51

What are the disadvantages of digoxin?

Answer 51

No effect on mortality

Narrow therapeutic index

Question 52

What is the normal therapeutic regime for heart failure treatment?

Answer 52

Furosemide and/or thiazide
Furosemide and pulse metolazone 
ACEI/ARB 
Carvedilol, bisoprolol, metoprolol, or ivabradine if intolerant
Digoxin 
Warfarin

Question 53

How is warfarin useful in heart failure treatment?

Answer 53

Dilated ventricle gives rise to thrombus formation and thrombi-embolic events, warfarin has a proven value in preventing these events

Question 54

How can you monitor/improve the benefit of heart failure treatment?

Answer 54

Symptomatic relief - dyspnoea, tiredness, lethargy etc.
Clinical relief - peripheral oedema, ascites, weight
Monitor weight regularly - have patients perform daily. weight assessment and increase medications according to symptoms/weight
Patient education