16.2 Heart failure therapeutics

Question 1

What is heart failure?

Answer 1

A state in which cardiac output is inadequate for the body’s requirements.

Question 2

How common is heart failure?

Answer 2

• Extremely common
• Approx. 1% of UK population affected
• 1 in 5 people over 40 have heart failure
• Incidence is increasing, due to ageing population and rise in type 2 diabetes

Question 3

What is the mortality for heart failure?

Answer 3

• 24% 1-year mortality
• 54% 5-year mortality

Prognosis for hear failure is related to its severity.

Question 4

How is the severity of heart failure classified?

Answer 4

New York Heart Association classification:
- Grade I = mild symptoms only on extreme exertion
- Grade II = symptoms on walking approx. 250metres
- Grade III = symptoms on minimal exertion
- Grade IV = symptoms present on rest or performing activities of daily living e.g. washing, getting dressed

Grade III and IV have particularly poor prognosis.

Question 5

Name the aetiologies of heart failure.

Answer 5

• Coronary artery disease (ischameic heart disease)
• Hypertension
• Cardiomyopathies
• Infective causes
• Valvular heart disease
• Drugs and poisons
• Peristent tachycardias
• Infiltrative diseases
• Endocrine causes
• Nutritional disorders
• Exacerbating factors

Question 6

What drug has decreased the number of patients developing heart failure after an MI?

Answer 6

ACE inhibitors.
Historically, patients who survived an MI were very high risk for developing heart failure.

Question 7

How can hypertension give rise to heart failure?

Answer 7

• Systemic BP increase
• This increases strain on the heart
• The left ventricle has to work hard against resistance, causes it to hypertrophise and outsrip its blood supply
• Causes ischaemia
• Can give rise to heart failure

Question 8

What are cardiomyopathies?

Answer 8

• General term to describe diseases of the heart muscle
• Diseases can either make the muscle dilate and saggy (poor contractility) or cause cardiac myocytes to hypertrophy (become bigger)

Question 9

What infective causes could lead to heart failure?

Answer 9

• COVID
• Coxsackie virus

Question 10

Why might a patient have valvular heart disease?

Answer 10

• Following an acute coronary syndrome e.g. MI
• Rheumatic fever (more historic)

Causes increased risk of heart failure.

Question 11

What drugs/poisons can cause heart failure?

Answer 11

• Chronic alcohol exposure
• Chemotherapy drugs e.g. doxorubicin
• Radiation exposure

Question 12

How does a persistent tachycardia lead to heart failure?

Answer 12

• Raised heart rate for a long period of time means heart muscles have to work harder
• Can cause heart to fail as it struggles to keep up

Question 13

How do infiltrative diseases cause heart failure?

Answer 13

• Deposition of abnormal substances within the heart
• Can affect both the muscle and connective tissue of the heart
• E.g. haemochromatosis: excess iron accumulation in the heart
• E.g. Wilson’s disease: excess copper accumulation in the heart

Question 14

Name an endocrine cause of heart failure.

Answer 14

• Chronic excess of growth hormone can lead to acromegalic cardiomyopathy, heart muscle hypertrophy

Question 15

Name a nutritional disorder that can lead to heart failure.

Answer 15

Beri-Beri disease
- Thiamine deficiency (vit B1)

Question 16

What factors can exacerbate present heart failure?

Answer 16

• Anaemia
• Thyroid disease
• Vit B1 deficiency

Question 17

What are the clinical features of left ventricular failure?

Answer 17

• Dyspnoea (shortness of breath)
• Orthopnoea (breathlessness when lying flat, pt requiring 3 or more pillows to sleep on at night)
• PND: paroxysmal nocturnal dyspnoea, sudden onset of breathlessness during the night, wake up in their sleep very breathless
• Fatigue

Question 18

What are the clinical features of right ventricular failure?

Answer 18

• Peripheral oedema, excessive accumulation of fluid: volume overload in the right circulation which causes an increase in pressure in the venous side thus creating impaired reabsorption of tissue fluid, initially presents in the ankles and can progress until whole leg is swollen
• Ascites, fluid collecting in abdomen
• Hepatic pain and abnormal LFTs
• Facial engorgement in severe cases of fluid accumulation

Question 19

What are the systemic features of heart failure?

Answer 19

Regardless of left or right ventricle affected, both types of heart failure cause a hypermetabolic state, causing:
- Weight loss
- Muscle wastage
- Fatigue
- Deconditioning
- Breathlessness

Question 20

Summarise the pathophysiology of heart failure.

Answer 20

An adverse neuro-endocrine response to decreased cardiac output, driven by the sympathetic nervous sytem and renin-angiotensin-aldosterone system.

Question 21

Explain the pathophysiology of heart failure.

Answer 21

• Cardiac output decreases, this is detected by baroreceptors
• Causes increased activation of the sympathetic NS and renin-angiotensin-aldosterone system
• Increases vasoconstriction and increases retention of water and salt in the kidneys
• If these systems stay activated over long periods of time, they increase pre-load and after-load on the heart
• Heart has to work against greater restistance, causes cardiac ouput to fall further

Viscious cycle.

Question 22

What investigations are carried out for patients with suspected heart failure?

Answer 22

• 12-lead ECG
• NT-pro BNP (peptide released in response to excessive stretch of the right atrium)
• If higher than 400ng/l an echocardiogram is required
• Echocardiogram helps in the diagnosis of hear failure on the basis of the left ventricle’s function

Question 23

How is heart failure classified based on the ejection fraction?

Answer 23

• HFrEF: heart failure with reduced ejection fraction (ejection fraction less than 40%)
• HFpEF: heart failure with preserved ejection fraction (ejection fraction greater than 50%)
• Mixed pattern: mild reduction in ejection fraction but elevated NT-pro BNP

Question 24

What is ejection fraction?

Answer 24

Measurement of the percentage of blood ejected from the left ventricle with each contraction of the heart.

Question 25

What are the 2 presentations of heart failure?

Answer 25

• Acute (decompensated) heart failure: a medical emergency
• Chronic heart failure: a chronic condition that develops gradually over time

Question 26

Describe the features of acute (decompensated) heart failure.

Answer 26

• Presents with classic features of heart failure
• Dyspnoea, oedema, fatigue
• Acute heart failure causes can include MI, coronary artery disease, hypertension

Question 27

What is the emergency management for acute heart failure?

Answer 27

• Oxygen if saturation is below 92%, if they have COPD give oxygen if saturation is below 88%
• Loop diuretics
• Nitrates if patient has angina/hypertensive emergency/aortic regurgitation or mitral valve disease
• Inotropic agents if pt is in cardiogenic shock
• Non-invasive ventilation if pt shows evidence of respiratory failure, hypoxia or dyspnoea

Question 28

What is the subsequent treatment for a pt with acute heart failure after emerency management?

Answer 28

• Optimise diuretics
• Daily weights/U and Es/urine ouput
• Daily INR if on Warfarin
• After 48 hours: beta blockers used to block sympathetic NS and RAAS systems

Question 29

What is the drawback of diuretics?

Answer 29

• Cause decrease in BP
• Hypotension
• Can cause a fall in kidney function due to a decline in glomerular filtration rate

Question 30

What is diuresis?

Answer 30

Extra urine output/excretion of urinary solute

Question 31

Explain the action of loop diuretics.

Answer 31

• Diuretics increase diuresis
• With less excess fluid it is easier for the heart to pump so is used to treat heart failure
• “All or nothing response” see graph
• Want to achieve mimimum optimal dose for desired diuresis
• Loop diuretics enter the lumen of the kidney to be effective, efficacy of diuretics declines with renal function
• If diuretics are not working: restrict salt and water intake, add thiazide diuretic, stop NSAIDs, stop ACE inhibitors

Question 32

What is the stage 1 treatment for chronic heart failure (HFrEF)?

Answer 32

(Ejection fraction below 40%)
- ACE inhibitor or angiotensin II receptor blocker (losartan, candesartan)
- Beta blockers
- Aldosterone antagonist e.g. spironolactone is other therapies are unsuccessful

Question 33

What is the stage 2 treatment for chronic heart failure (HFrEF)?

Answer 33

• SGLT-2 inhibitor e.g. Dapagliflozin (increases renal lossof sugar)
• Sacubitril valsartan (increases diuresis and vasodilation)
• Ivabradine (reduces heart rate, risk of QT prologation-dysrhythmia)