Heart Failure

Question 1

What is heart failure?

Answer 1

Inability of heart to meet demands of body despite an adequete filling pressure/cardiac output is inadequete for body’s requirements)

Question 2

What is the name for both left & right sided HF?

What is name for right sided HF?

Answer 2

• Both= congestive
• Right= Cor pulmonale

Question 3

Heart failure can be low or high output cardiac failure; describe low output HR and state some causes

Answer 3

Low Output

• Cardiac output is low and fails to increase during exertion/when required
• Causes:
  
  • Pump failure: systolic or diastolic HF, decreased HR, negatively inotropic drugs
  • Excessive preload
  • Chronic excessive afterload e.g. aortic stenosis, hypertension

Question 4

Heart failure can be low or high output; describe high output cardiac failure and state some causes

Answer 4

• Ouput needs are increased but heart fails to meet those increased needs (even if the cardiac output has increased it hasn’t increased enough to meet the increased needs)
• Causes:
  
  • Anaemia
  • Pregnancy
  • Hyperthyroidism
  • Pagets disease
  • Arteriovenous malformation

Question 5

Explain the difference between systolic and diastolic heart failure, include:

• Where the failure is in each
• Ejection fraction
• Causes
  *

Answer 5

Systolic heart failure

• Inability of ventricle to contract properly resulting in reduced cardiac output
• Ejection fraction <35-40%
• Causes:
  
  • IHD
  • MI
  • Dilated cardiomyopathy
  • Myocarditis

Diastolic Heart Failure

• Inability of ventricle to relax and fill normally
• Ejection fraction >50%
• Causes:
  
  • Constrictive pericarditis
  • Cardiac tamponade
  • Restrictive cardiomyopathy
  • Hypertrophic obstructive cardiomyopathy

Question 6

In reality, patients often have both systolic and diastolic HF; true or false?

Answer 6

True

Question 7

State some causes of heart failure- highlight which is most common

Answer 7

• Ischaemic heart disease
• Hypertension
• Valvular heart disease (rheumatic fever in elderly)
• AF
• Chronic lung disease
• Cardiomyopathy (this can be hypertrophic heart, dilated heart, post viral infec, post partum)
• Previous cancer or chemo drugs
• HIV

Question 8

State some risk factors for heart disease

*Similar to causes, but think about thinks that increase risk of IHD

Answer 8

Since ischaemic heart disease is main cause of heart failure, most of risk factors are risk factors associated with IHD such as:

• Diabetes
• Hypertension
• Age
• Male
• Dyslipidaemia
• Family history

Others include:

• Cocaine abuse
• Anaemia
• AF
• Increased CRP

Question 9

What are the symptoms of heart failure?

*In your answer think about the different syptoms for LV and RV failure

Answer 9

General Symptoms

• Fatigue
• Palpitations
• Exercise intolerance
• Dizziness

LV Failure

• Dyspnoea
• Orthopnoea
• Nocturnal paroxysmal dyspnoea
• Nocturnal cough (+/- pink frothy sputum)
• Asthma

RV Failure

• Peripheral oedema
• Ascites
• Facial engorgement
• Epistaxis
• Nause, vomitting, abdo discomfort (due to hepatic engorgement of blood in liver)
• Nocturia

Question 10

Explain why a pt with RV heart failure may have nocturia

Question 11

What would you find on clinical examination of someone with heart failure- in your answer distinguish the signs you would see in LVF and RVF

Answer 11

Both

• Pale peripheries
• Cool peripheries
• Tachycardia
• Low volume pulse
• Additional heart sounds
• Cyanosis

LVF

• Bibasal pulmonary crackles
• Pleural effusion (stony dull to percuss)
• Heart murmur
• Wheeze (cardiac asthma)
• Displaced apex beat

RVF

• Elevated JVP
• Pitting bilateral peripheral oedema
• Hepatic enlargment (may be tender)
• Ascites
• Heart murmur of tricupsid regurg
• Parasternal heave

Question 12

Give two reasons why you might hear extra heart sounds in someone with heart failure

Answer 12

• Rush of blood hitting non-compliant ventricle
• Loss of coordination in valve closure

Question 13

What investigations would you order if you suspect someone has heart failure, include:

• Bedside
• Bloods
• Imaging

*Where approrpiate, exp

Answer 13

Bedside

• ECG
• Usual observations
• BM’s (suspect diabetes as risk factor)
• Weight

Bloods

• B-type natriuretic peptide (NT-pro-BNP) (raised in HF) FIRST LINE BLOOD TEST
• FBC (severe anaemia can cause HF. HF can cause mild anaemia)
• U&E
• LFTs (liver func may be impaired due to congestion)
• TFTs (both hypo- and hyperthyroidism can cause HF)
• Ferritin & transferritin (haemochromatosis can cause cardiomyopathy)
• Lipids (dyslipidaemias as risk factor)

Imaging

• CXR (look for cardiomegaly, pulmonary oedeam, pleural effusion)
• Echocardiogram
• Cardiac MRI ***(maybe)

Question 14

Discuss what you should do, in regards to referral and further investigations if NT-proBNP is:

• Raised
• High

Answer 14

• Raised: specialist assessment including transthoracic echo within 6 weeks
• High: specialist assessment including transthoracic echo within 2 weeks

Question 15

State what you may find on CXR of a pt with heart failure

*Think ABCDE

Answer 15

*Can be remembered as ABCDE

• Alveolar oedema(bat wing distribution- around Hila)
• Kerley B lines
• Cardiomegaly (cardiothoracic ratio >0.5)
• Dilated prominent upper lobe vessels
• Pleural effusions

May also see…

• Fluid in fissures
• Air bronchograms
• Increase width of vascular pedicle

Question 16

What is the vascular pedicle on CXR?

Answer 16

Distance between parallel lines drawn from the point at which the superior vena cava intersects the right main bronchus and a line drawn at the takeoff of the left subclavian artery from the aorta

Normal: 38-58mm on PA CXR

Question 17

What is an air bronchogram on a CXR?

Answer 17

Phenonenom where air filled bronchi are made visible by the opacification of surrouding alveoli; alveoli are opacified as they are filled with something other than air (in case of heart failure filled with fluid)

Question 18

What are Kerley B lines on CXR?

Answer 18

Thickened, oedematous interlobular septa found at peripheries of lungs usually at bases

Question 19

Why might you do a cardiac MRI on someone with heart failure?

Answer 19

• ECHO may miss right ventricle
• Can estimate amount of scaring and use this, alongside coronary artery disease assessment, to assess viability of cardiac muscle

Question 20

Describe the Framingham criteria for congestive heart failure

Answer 20

Question 21

Describe the New York Classification of Heart Failure

Answer 21

• I: Heart disease present but no limitations; ordinary physical activity doesn’t cause undue fatigue, dyspnoea or palpitations
• II: Comfortable at rest but ordinary activity results in fatigue, dyspnoea or palpitations
• III: Comfortable at rest but less than ordinary activity results in symptoms
• IV: symptoms present at rest and unable to carry out any physical activity without discomfort

Question 22

State the four main types of treatment for heart failure

Answer 22

• Treat any causes or exacerbating factors (e.g. dysrhythmias, valve disease, anaemia, thyroid disease, infection)
• Lifestyle modification
• Medication/pharmacological
• Complex device therapy

Question 23

State the lifestyle modifications involved in the management of heart failure

Answer 23

• Smoking cessation
• Restriction of alcohol
• Salt restriction
• Fluid restriction may be indicated- especially if have hyponatraemia
• Weight loss if appropriate

Question 24

Discuss the treatment of chronic heart failure with preserved ejection fraction

Answer 24

• Manage co-morbidities e.g. hypertension, diabetes, IHD etc..
• Offer cardiac rehabilitation programme

Question 25

Outline the pharmacological management of chronic heart failure with reduced ejection fraction

Answer 25

Vaccinations

• Annual influenza
• One of pneumococcal vaccine

Treatment of fluid overload:

• diuretics (usually loop)

Treatment of heart failure

• First line: ACE inhibitor and beta blocker (use clinical judgement to decide which to start first)
• Second line: aldosterone antagonist
• Third line treatment to be initiated by specialist:
  
  • _​_Consider replacing ACE inhibitor or ARB with angiotensin receptor-Neprilsin inhibitor (ARNI) e.g. sacubitril-valsartan
  • Ivabradine
  • Hydralazine and isosorbide dinitrate
  • Digoxin

Question 26

Which of the medications used in heart failure has no mortality benefit?

Answer 26

Digoxin

Question 27

Discuss which diuretics are used in heart failure

Answer 27

• Loop diuretics e.g. Furosemide or bumetanide are most effective
  
  • Furosemide dose= 40-500mg daily in divided doses
  • Can be given IV if pt very overloaded
  • Increased doses may be needed in pts with renal impairment
  • Prolonged infusions sometiems give better effects
  • Bumetanide may be absorbed better orally
• Thiazide diuretics e.g. bendroflumethiazide or metolazone
  
  • Useful when added to a loop
  • Small dose= profound diuresis
  • Bendroflumethiazide dose= 2.5mg OD
  • Metolazone dose= 2.5-5mg OD
  • Metolazone may produce greater diuresis
• Long term diuretic use can cause hypokalaemia hence:
  
  • Consider ACE inhibitor if pt not already on
  • If hypokalaemia persists add spironolactone (25mg OD)

Question 28

How do we assess a pts response to diuretics in heart failure?

Answer 28

Daily weight to see how much fluid is lost

Question 29

Dicuss why ACE inhibitors are beneficial in heart failure

Answer 29

• Improve symptoms and signs of all grades of heart failure (even if pt asymptomatic)
• Improve exercise tolerance
• Slow disease progression
• Improve survival
• Particularly useful if pt also hypertensive

Question 30

Which ARBs have good evidence that supports their use in heart failure?

Answer 30

• Candesartan
• Valsartan

Question 31

Describe the mechanism of action of angiotensin receptor-neprilysin inhibitors

Answer 31

Dual action:

• Block angiotensin II receptor preventing vasoconstriction, aldosterone release, renin release, ADH release
• Prevent degradation of natriuretic peptides to increase vasodilation and diuresis

Question 32

ARNIs (angiotensin receptor-Neprilysin inhibitors) should only be used in which people?

Answer 32

Only used in pts with all of the following:

• New York Heart Association (NYHA) class II to IV symptoms
• Left ventricular ejection fraction of <35%
• Already taking stable doses of ACEI or ARBS

Question 33

Discuss how to assess whether it is safe to start beta blockers in a pt with heart failure

Answer 33

START LOW AND GO SLOW!

Usually safe to initiate if:

• Systolic BP >100mmHG
• Resting HR >60bpm
• No AV block
• No significant postural drop

Usually safe to increase dose subsequently as long as systolic BP stays >90mmHG and resting HR stays above 50bpm with no postural drop.

Question 34

Which three beta blockers are licensed to treat chronic heart failure

Answer 34

• Carvedilol
• Bisoprolol
• Nebivolol

Question 35

The general rule with beta blockers is START LOW AND GO SLOW; discuss the dosages of beta blockers carvedilol and bisoprolol in heart failure

Answer 35

Carvedilol

• Start 3.125mg BD for 2 weeks
• 6.25mg BD fro 2 weeks
• 12.5mg BD for 2 weeks
• 25mg BD thereafter

Bisoprolol

• Start 1.25mg OD for 1 week
• 2.5mg OD for 1 week
• 3.75mg OD for 1 week
• 5mg OD for 4 weeks
• 7.5mg OD for 4 weeks
• 10mg OD thereafter

Question 36

State two vasodilators that are used in the treatment of chronic heart failure

Answer 36

• Hydralazine
• Isosorbide dinitrate

Question 37

When would you consider using vasodilators for the treatment of chronic heart failure?

Answer 37

• Generally should be used if pt cannot take ACEi or ARB
• Occasionally they may be used as add on therapy (in addition to ACEi/ARB, diuretics, beta blocker) in resistant CCF

Question 38

If ACEi and beta blocker aren’t enough to treat heart failure you can consider adding ivabradine. For ivabradine state:

• Mechanism of action
• Who it can be used in
• Two drugs it should not be used in combination with
• Impact on blood presure

Answer 38

• Inhibits HCN channels/funny current in SA node to decrease HR
• Used in pts who:
  
  • Sinus rhythm
  • HR >75bpm
  • LVF <35%
• Avoided with diltiazem or verapamil
• No impact on bp (hence good when bp is low)

Question 39

For nitrates discuss:

• How they work
• Positive benefits nitrates have in chronic heart failure
• Positive benefits nitrates have in acute heart failure
• Circumstances in which you should use nitrates with caution

Answer 39

• Smooth muscle vasodilation (see image) to reduced preload
• Chronic heart failure: useful in relief of orthopnea & exertional dyspnoea
• Acute heart failure: useful if there is underlying ischaemia, hypertension or aortic/mitral regurg
• Caution used if: aortic/mitral stenosis, pericardial restriction, hypertrophic cardiomyopathy

Question 40

ACE inhibitors and aldosterone antagonists both increase concentration of what ion?

Answer 40

K+ therefore should monitor

Question 41

When medical therapy fails to adequetly treat HF, you can opt for complex device therapy. State two complexes devices used in heart failure and state when they are used

Answer 41

• CRT (cardiac resynchronisation pacemaker): used when widened QRS e.g left bundle branch block
• ICD (implantable cardiac device): purpose is to prevent sudden cardiac death by detecting and cardioverting VF/VT. Used in secondary prevention in survivors of sudden cardiac arrest or for primary prevention

Question 42

Describe when cardiac resynchronisation is indicated and how the device works

Answer 42

It is indicated:

• Symptomatic HF
• LVEF <30% despite optimal therapy
• LBBB with QRS >130ms
• RBBB with QRS >150ms

Depolariation can be delayed between mutliple points in heart; pace at these points to make QRS narrow again so the heart can pump normally.

Question 43

Describe how ICDs (implantable cardiac defribrillators) work

Answer 43

• Do not improve symptoms
• Purpose is purely to prevent sudden cardiac death by detecting and cardioverting VF/VT by delivering an electric shock

Question 44

ICDs can co-exist with CRTs; true or false?

Answer 44

True

Question 45

Discuss the complications of heart failure

Answer 45

• Pleural effusion
• Anaemia
• Acute or chronic renal insufficiency (due to decreased CO and/or drugs used to treat HF reducing renal perfusion)
• Sudden cardiac death
• Decreased quality of life

Question 46

Discuss the prognosis of heart failure

Answer 46

• High mortality (inpatients 10%, following discharge up to 50% in the following 12 months)
• Pts with any of the following have an even worse prognosis:
  
  • Severe fluid overload
  • Very hgih NT-proBNP levels
  • Severe renal impairment
  • Advanced ag
  • Multi-morbidity
  • Frequent hosp admissions

Question 47

Whath is meant by acute heart failure?

Answer 47

Life threatening emergency in which there is sudden onset or worsening of heart failure symptoms (hence can occur in pts with “decompensated heart failure” or without hx of heart failure “de novo heart failure”)

*decompensated heart failure accounts for most cases of AHF

Question 48

Describe the pathophysiology of AHF

Answer 48

• Left ventricle is unable to adequately move blood through the left side of the heart and out into the body.
• Causes a backlog of blood that increases the amount of blood stuck in the left atrium, pulmonary veins and lungs
• . As the vessels in these areas are engorged with blood due to the increased volume and pressure they leak fluid and are unable to reabsorb fluid from the surrounding tissues.
• Causes pulmonary oedema, which is where the lung tissues and alveoli become full of interstitial fluid.
• This interferes with the normal gas exchange in the lungs, causing shortness of breath, oxygen desaturation and the other signs and symptoms.

Question 49

State some potential causes of acute heart failure

Answer 49

• ACS
• Hypertensive crisis
• Acute arrhythmia
• Valvular disease
• Sepsis
• Iatrogenic (e.g. too much fluid)

Question 50

State the symptoms of acute heart failure

Answer 50

Sudden onset:

• Dyspnoea
• Orthopnoea
• Pink frothy sputum
• Reduced exercise tolerance
• Fatigue
• Oedema
• Symptoms eased by sitting and leaning forward

Question 51

State some signs of acute heart failure that you might find on clinical examination

Answer 51

• Tachycardia
• Tachypnoea
• Raised JVP
• Fine pulmonary crackles
• Wheeze
• Pulsus alterans
• Triple/gallop rhythm

Question 52

State what investigations you would do for acute heart failure, think about:

• Bedside
• Bloods
• Imaging

Answer 52

Bedside

• ECG
• ABG

Bloods

• U&E’s
• FBC: ?underlying infection, anaemia
• BNP
• Troponin: if thinking ACS

Imaging

• CXR
• Echo

Question 53

Discuss the management of acute heart failure

Answer 53

1. Sit pt up
2. Stop IV fluids
3. High flow oxygen (15L via non-rebreathe mask)
4. Obtain IV access
5. IV furosemide
6. Treat any arrhythmias
7. Consider nitrates (not routinely recommended but can help if there is concomitant ischaemia or htn)
8. If have hypotension/cardiogenic shock can consider inotropes (e.g. dobutamine), vasopressors (e.g. noradrenaline)- ICU Care
9. Consider opiates to help reduce dyspnoea/distress BUT NOT ROUTINELY RECOMMENDED
10. CPAP if respiratory failure

NOTE: don’t routinely offer nitrates, opiates or inotropes to pts with acute heart failure

Following acute management reassess and manage as chronic heart failure if appropriate

Question 54

Remind yourself why the bodys response to heart failure makes heart failure worse

Answer 54

Question 55

What is an echocardiogram?

What is recorded throughout the duration of an ECHO?

Answer 55

• Imaging procedure which uses high frequency ultrasound waves to view the heart..
• An ECG is recorded throught the ECHO

Question 56

Describe the two types of ECHO and explain advantages and disadvantages of each

Answer 56

TOE (transoesphageal echocardiogram):

• ADV: higher sensitivty, better quality images, more effective at visualising the posterior heart
• DIS: more invasive

TTE (transthoracic echocardiogram):

• ADV: less invasive**, often good enough for what is required
• DIS: not as sensitive, some structures better visualised using TOE

Question 57

Compare what structures can be visualised in a transthoracic ECHO and a transoesophageal ECHO

Answer 57

Structures imaged in transthoracic:

• Atria & ventricles
• Cardiac valves
• Pericardial sac
• Cardiac wall thickness & muscle contractions
• Ascending aorta
• Intracardiac masses (if any)

Structures imaged in TOE:

• Atria & ventricles
• Valves
• Interatrial septum
• Left atrial appendage
• Aorta (up to level of upper abdomen)

Question 58

Which is considered better, a transthoracic or transoesphageal echo?

Answer 58

TOE produces more detailed images

Question 59

What type of ECHO would you opt for if you wanted to visualise a prosthetic valve?

Answer 59

TOE