19. Cardiology - Heart Failure

Question 1

What is heart failure?

Answer 1

Where the heart fails to pump adequate blood to meet the needs of the body despite adequate filling pressure.

Question 2

What are the cardinal symptoms of heart failure?

Answer 2

Dyspnoea, fatigue, fluid retention.

Question 3

What are the causes of heart failure?

Answer 3

Arteriosclerotic heart disease, myocardial infarction, hypertension, valvular heart disease, dilated cardiomyopathy, congenital heart disease.

Question 4

What are the physiologic compensatory mechanisms in the progression of HF?

Answer 4

SANS and RAAS activated chronically so remodelling of cardiac tissue, loss of myocytes, hypertrophy, and fibrosis. Leads to additional neurohormonal activation in a vicious cycle.

Question 5

What are the goals of pharmacological intervention in HF?

Answer 5

Alleviate symptoms, slow disease progression, improve survival.

Question 6

What are the seven classes of drugs effective in HF management?

Answer 6

ACE-i, ARB, aldosterone antagonists, B blockers, diuretics, direct vaso and venodilators, inotropic agents.

Question 7

What are the benefits of pharmacological intervention in HF?

Answer 7

Reduced myocardial workload, decreased ECF volume, improved cardiac contractility, reduced rate of cardiac remodelling.

Question 8

What is the naming rule of ACE-inhibitors? Give an example.

Answer 8

-pril, e.g. ramipril, lisinopril.

Question 9

What is the naming rule of ARBs? Give an example.

Answer 9

-sartan, e.g. losartan, valsartan.

Question 10

What is the naming rule of aldosterone antagonists? Give an example.

Answer 10

-one, e.g. spironolactone, eplerenone.

Question 11

What is the naming rule of B-blockers? Give an example.

Answer 11

-lol, e.g. bisoprolol, carvedilol, metoprolol.

Question 12

Which diuretics can be used in HF?

Answer 12

Bumetanide, furosemide, metolazone, torsemide.

Question 13

Which vaso/venodilators can be used in HF?

Answer 13

Hydralzine, isosorbide dinitrate.

Question 14

Which inotropic agents can be used in HF?

Answer 14

Digoxin, dobutamine, milrinone.

Question 15

Where are pacemaker cells located?

Answer 15

In the sinoatrial and atrioventricular nodes.

Question 16

What are the five phases of cardiac action potentials?

Answer 16

Phase 0 ‘fast upstroke’ - Na+ channels open and influx, Na+ channel are inactivated and upstroke ends.
Phase 1 ‘partial repolarisation’ - K+ channels open and close so transient efflux.
Phase 2 ‘plateau’ - Ca2+ open and slow influx balances slow efflux of K+.
Phase 3 ‘repolarisation’ - Ca2+ channels close and K+ channels open so efflux.
Phase 4 ‘forward current’ - back to threshold.

Question 17

What is an inotropic effect?

Answer 17

Things that increase force of contraction by increasing free cytosolic calcium available.

Question 18

What are the movements of Ca2+ during cardiac muscle contraction?

Answer 18

1. Ca2+ entry from outside of cell triggers release of lots of Ca2+ from sarcoplasmic reticulum.
2. Ca2+ removed by reuptake into sarcoplasmic reticulum and extrusion from cell by Ca2+/Na+ exchange.

Question 19

What are the three compensatory physiological responses in HF?

Answer 19

Increased SANS, activation of RAAS, cardiac hypertrophy.

Question 20

How is sympathetic activity increased in HF?

Answer 20

Baroreceptors sense a decrease in BP and activate SANS. Increased HR and force of contraction in heart muscle. Vasoconstriction to enhance venous return and therefore increase preload –> increased stroke volume.

Question 21

How is the RAAS activated in HF?

Answer 21

Fall in CO means less blood to kidneys so renin is released. Angiotensin II is made and aldosterone is released. There is increased peripheral resistance (afterload) and retention of sodium and water so blood volume increases.

Question 22

How does peripheral oedema occur in HF?

Answer 22

The RAAS increases the blood volume for the heart to pump by increasing sodium and water retention. The heart can’t pump the full volume so venous pressure increases and peripheral and pulmonary oedema occurs.

Question 23

How does myocardial hypertrophy occur in HF?

Answer 23

Stretching the heart muscle more initially leads to stronger contraction. So the chambers dilate and the heart increases in size but eventually stretch too much and become weaker.

Question 24

What is HF with reduced ejection fraction?

Answer 24

When the heart hypertrophies and the fibres are elongated excessively so have weaker contractions and reduced ejection. The ventricles are unable to pump effectively.

Question 25

What is HF with preserved ejection fraction?

Answer 25

Ability of ventricles to relax and accept blood is impaired by structural changes. So thickening of the ventricular wall reduces volume and the heart muscle can’t relax. This means the ventricle doesn’t fill adequately.

Question 26

What is acute/decompensated HF?

Answer 26

The compensatory adaptive mechanisms fail to maintain cardiac output so HF is decompensated and the patient develops worsening HF signs and symptoms.

Question 27

What are the typical HF symptoms?

Answer 27

Dyspnoea on exertion, orthopnoea, paroxysmal nocturnal dyspnoea, fatigue, peripheral oedema.

Question 28

What are the non-pharmacological strategies for HF management?

Answer 28

Fluid intake restriction, salt intake restriction, treat comorbid conditions.

Question 29

What are the actions of ACE-i on the heart in HF?

Answer 29

Decrease vascular resistance (afterload) and venous tone (preload), resulting in increased CO. Reduce AT-II mediated effects.

Question 30

What are the indications for ACE-i in HF?

Answer 30

HFrEH, all stages of LV failure. Use in combination with diuretics, B-blockers, digoxin etc if severe. Recent MI or high risk of cardiovascular event may benefit.

Question 31

What are the ADRs of ACE-i?

Answer 31

Postural hypotension, renal insufficiency, hyperkalaemia, persistent dry cough, angioedema (rare).

Question 32

What are the actions of ARB on the cardiovascular system?

Answer 32

Block ATII action without affecting bradykinin breakdown.

Question 33

What is the indication of use of ARBs?

Answer 33

In place of ACE-i in patients who don’t tolerate them in HF or hypertension.

Question 34

What are the ADRs of ARBs?

Answer 34

Postural hypotension, renal insufficiency, hyperkalaemia.

Question 35

Why do patients with HF have increased aldosterone?

Answer 35

RAAS system produces more and hepatic clearance is decreased.

Question 36

What are the actions of aldosterone antagonists in HF?

Answer 36

Prevent salt retention, myocardial hypertrophy, and hypokalaemia.

Question 37

When are aldosterone antagonists indicated in HF?

Answer 37

More severe stages of HFrEF or HFpEF and recent MI.

Question 38

What does evidence show about use of B blockers in HF?

Answer 38

Improved systolic function and reversed cardiac remodelling.

Question 39

Which three B-blockers are beneficial in HF?

Answer 39

Bisoprolol, metoprolol, carvedilol.

Question 40

Which patients with HF are B-blockers recommended for?

Answer 40

Chronic, stable HF. Particularly HFrEF.

Question 41

What drugs should make B-blockers in HF be used with caution?

Answer 41

Ones that slow AV conduction like amiodarone, verapamil, diltiazem.

Question 42

What is the purpose of diuretic use in HF?

Answer 42

Symptom management - reduce pulmonary congestion and peripheral oedema by decreasing plasma volume nad venous return to heart.

Question 43

Which type of diuretic is mostly used in HF?

Answer 43

Loop diuretics.

Question 44

Why are vaso- and venodilators useful in HF?

Answer 44

Dilation of blood vessels decreases cardiac preload by increasing venous capacitance.

Question 45

Which patients have indications for vaso/venodilator use in HF?

Answer 45

Black patients with HFrEF.

Question 46

What is the action of inotropic drugs in HF?

Answer 46

Increase cardiac contractility and therefore CO.

Question 47

What is the mechanism of action of calcium glycosides considering cytosolic calcium concentration?

Answer 47

Inhibits Na+-K+-ATPase so myocyte can’t pump Na+ from the cell so the Na+ concentration gradient is decreased. This reduces action of Na+/Ca2+ exchanger to move Ca2+ out of the cell. Intracellular Ca2+ increases as Na+ is exchanged for extracellular Ca2+ by the Na+/Ca2+ exchanger. The membrane is depolarised so more excitable.

Question 48

What is the mechanism of action of digoxin considering contractility of cardiac muscle?

Answer 48

Increased FOC causing CO to be higher. Vagal tone is increased so HR and myocardial O2 demand is decreased. Digoxin slows conduction velocity through AV node so useful in AF as well as HF.

Question 49

What is the mechanism of action of digoxin considering neurohormonal function?

Answer 49

Low-dose digoxin inhibits SANS activation.

Question 50

What is the indication of use of digoxin in HF?

Answer 50

HFrEF after ACE-i, B-blockers, diuretics. Or HFpEF only if with AF or flutter too.

Question 51

What are the ADRs of digoxin?

Answer 51

Main issue is it has a small therapeutic ratio so risk of digoxin toxicity. Anorexia, nausea, and vomiting are signs of toxicity. Blurred vision, yellowish vision (xanthopsia), arrhythmias.

Question 52

How can digoxin toxicity be reversed?

Answer 52

Stop digoxin and replenish potassium.

Question 53

Give an example of a B-agonist used in HF.

Answer 53

Dobutamine, dopamine.

Question 54

What is the mechanism of action of B-agonists in HF?

Answer 54

Increase cAMP –> activation of protein kinase which phosphorylates slow calcium channels and increases Ca2+ entry into cell therefore enhancing contraction.

Question 55

When are B-agonists used in HF?

Answer 55

Short-term treatment of acute HF in hospital.

Question 56

What is the action of Milrinone?

Answer 56

Phosphodiesterase inhibitor.

Question 57

What is the mechanism of action of phosphodiesterase inhibitors in HF?

Answer 57

Increases intracellular concentration of cAMP therefore increasing intracellular Ca2+ and cardiac contractility.

Question 58

What are the stages of managing HF?

Answer 58

1. Risk factor reduction, patient education
2. Treat hypertension, diabetes, dyslipidaemia - ACE-i or ARBs
3. ACE-i or ARBs in all patients, B-blockers in some
4. ACE-i and B-blockers in all patients, aldosterone antagonists and HYD/ISDN in some
5. Dietary Na+ restriction, diuretics, digoxin

Question 59

Which drug mat exacerbate HF? Acetaminophen, cetirizine, chlorothalidone, ibuprofen.

Answer 59

Ibuprofen - NSAIDs –> increased fluid retention and increased BP.

Question 60

Which best describes the action of ACE-i in HF?
A. increase vascular resistance
B. decrease CO
C. reduce preload
D. increase aldosterone

Answer 60

C. reduce preload - decrease vascular resistance, decrease preload, decrease afterload, increase CO, blunt aldosterone release.

Question 61

What makes losartan different from other ARBs?
A. renally eliminated
B. active metabolite
C. short half-life
D. small volume of distribution

Answer 61

B. active metabolite - undergoes first-pass metabolism to convert to active metabolite.

Question 62

How do B-blockers improve cardiac function in HF?
A. decrease cardiac remodelling
B. increase heart rate
C. increase renin release
D. activate adrenaline

Answer 62

A. decrease cardiac remodelling - improve cardiac function by reducing heart rate, decreasing renin, and preventing adrenaline effects on heart all to decrease remodelling.

Question 63

A 70yo female has HFrEF and has a PMHx of AF and HTN. Drug Hx: hydrochlorothiazide, lisinopril, metoprolol tartrate, warfarin. She has no symptoms, which medication should she change?
A. stop hydrochlorothiazide
B. lisinopril –> losartan
C. decrease warfarin dose
D. metoprolol tartate –> metoprolol succinate

Answer 63

D. metoprolol tartate –> metoprolol succinate as succinate is used in HF for mortality benefit.

Question 64

75yo white male has HF. He presents with SOB, increased pitting oedema, 5-pound weight gain over 2 days. Drug Hx: losartan and metoprolol succinate. He has no chest pain and is stable for outpatient treatment. What's the best recommendation?
A. increase metoprolol succinate dose
B. start hydrohlorothiazide
C. start furosemide
D. stop losartan

Answer 64

C. start furosemide - HF exacerbation is a possibility so loop diuretics can be used for immediate diuresis.

Question 65

How is spironolactone beneficial in HF?
A. promotes K+ secretion
B. agonises aldosterone
C. prevents cardiac hypertrophy
D. decreases blood glucose

Answer 65

C. prevents cardiac hypertrophy - antagonises aldosterone so prevents Na+/water retention, cardiac hypertrophy, and hypokalaemia.

Question 66

Which is important to monitor in patients taking digoxin?
A. Cl-
B. K+
C. Na+
D. zinc

Answer 66

B. K+ - hypokalaemia can lead to life-threatening arrhythmias and precipitate digoxin toxicity.

Question 67

Which describes the mechanism of action of milrinone in HF?
A. decreases intracellular Ca2+
B. increases cardiac contractility
C. decreases cAMP
D. activates phosphodiesterase

Answer 67

B. increases cardiac contractility - increases cAMP so increases intracellular Ca2+ and increases contractility.

Question 68

What is the most common ADR of fixed-dose hydralazine/isosorbide dinitrate?
A. diarrhoea
B. drug-induced lupus
C. headache
D. heartburn

Answer 68

C. headache - lupus is also a possibility but far less common.