Cardiac failure (acute and chronic)

Question 1

What is the generic defintion of cardiac failure?

Answer 1

The Failure of the heart to maintain the cardiac output (CO) needed to meet the body’s requirements

CO = HR x SV

Question 2

What is chronic HF?

Answer 2

Chronic Heart Failure: A long-term condition in which the heart fails to maintain an adequate circulation for the needs of the body.

Question 3

What are some features of chronic HF?

Answer 3

Ø Develops and progresses slowly

Ø Can have periods of acute decompensation

Question 4

What is acute HF?

Answer 4

Rapid onset or worsening of symptoms & signs of HF, requiring urgent Tx and evaluation.

Question 5

What is low output HF?

Answer 5

CO is ↓ and fails to increase normally with exertion

Question 6

What is high output HF?

Answer 6

CO is normal but you have ↑ needs (e.g. hyperthyroidism, pregnancy).

Heart failure occurs when the heart fails to meet those increased needs (the heart is overworked).

Question 7

What is congestive HF?

Answer 7

When LHF and RHF occur simultaneously

Question 8

What is the major sign of congestive HF?

Answer 8

• breathless (sign of LVF) &
• oedema (sign of RHF)

due to abnormal salt and water retention

Question 9

What are the 3 major causes & examples of LHF?

Answer 9

1)Valvular:

• ØAortic stenosis,
• ØAortic Regurgitation
• ØMitral Regurgitation

2) Heart Muscle:

• ØIschaemic Heart Disease
• Cardiomyopathy
• Myocarditis
• Arrhythmias (AF)

3) Systemic:

• Ø Hypertension,
• Ø Amyloidosis
• Ø Drugs (e.g. cocaine, alcohol, BBs*, chemotherapeutics - eg doxorubicin)

Question 10

Why does aortic stenosis cause LHF?

Answer 10

causes excessive afterload.

Basically the ventricle has to push harder to eject blood from a stenosed aortic valve.

(NB: afterload = the pressure the heart must work against to eject blood during systole)

Question 11

Why does aortic regurgitation cause LHF?

Answer 11

There is increased pressure in the LV due to the regurgitant blood form the aorta to the LV

(the LV in addition to having to pump the normal volume of blood, has to pump the regurgitant blood as well).

These changes lead to cardiac remodeling (dilatation, hypertrophy) leading to heart failure.

Question 12

Why does mitral regurgitation cause LHF?

Answer 12

If significant (moderate to severe) MR is present, the Left Ventricle must work harder to keep up with the body’s demands for oxygenated blood.

Over time, the heart muscle and circulatory system undergo a series of changes to maintain this increased demand – due to mechanical overload the LV overtime can become, hypertrophied, fibrotic, dilated and scarred, ending up with an impaired myocardial function.

This can lead to LHF (mitral regurgitation increases preload)

Question 13

Why does HTN cause LHF?

Answer 13

increases afterload.

LV has to push harder in order to push blood against high systemic pressures.

This over time puts strain in the LV leading to LHF.

Question 14

Why does amyloidosis cause LHF?

Answer 14

In amyloidosis, an abnormal protein called amyloid builds-up in tissues and organs.

If amyloid gets deposited in the heart, the heart becomes increasingly stiff and eventually the pumping function deteriorates.

Question 15

Give examples of drugs that can cause LHF

Answer 15

• cocaine
• alcohol,
• chemo,
• betablockers (negative chrono & ino tropic effect)

Question 16

As beta blockers used to be contraindicated in HF, which ones are now recommended?

Answer 16

• metoprolol succinate
• bisoprolol,
• carvedilol

Question 17

What are the most serious cardiac side effects of beta blockers?

Answer 17

• symptomatic hypotension
• unacceptable fatigue
• exacerbation of heart failure in patients with acute decompensated heart failure

Question 18

What are some non-cardiac side effects of beta blockers?

Answer 18

• depression
• fatigue
• dizziness
• bradycardia
• sexual dysfunction

Question 19

What are the 3 main causes & examples of RHF?

Answer 19

1) LHF
2) Lungs:

• Ø Pulmonary HTN (can lead to cor pulmonale)
• Ø PE
• ØChronic Lung Disease (interstitial lung disease, pulmonary fibrosis, cystic fibrosis)

3) Heart valves:

• ØTR
• Ø Pulmonary valve Disease e.g. Pulmonary stenosis or Pulmonary regurg.

Question 20

What is cor pulmonale?

Answer 20

Enlargement and failure of RV due to increased pressure in the lungs/vascular resistance

Question 21

Why does pulmonary HTN cause RHF?

Answer 21

heart cannot pump to the stiffened pulmonary arterial vessels. So RV needs to work harder, becomes enlarged and weakened

Question 22

Why does chronic lung disease cause RHF?

Answer 22

can result in chronic hypoxia:

• The pulmonary vasculature results to chronic hypoxia by vasoconstriction.
• This increases vascular resistance and and results in increased pulmonary arterial pressure.
• The right heart reacts to this by remodeling (hypertrophy and dilatation).
• Over time it can lead to RHF.

Question 23

Why does tricuspid regurgitation cause

Question 24

Why does TR cause RHF?

Answer 24

increases preload –>

mechanical overload the RV can become, hypertrophied, fibrotic, dilated and scarred, ending up with an impaired myocardial function.

This can lead to LHF (mitral regurgitation increases preload)

Question 25

Why does pulmonary stenosis cause LHF?

Answer 25

causes excessive afterload.

the ventricle has to push harder to eject blood from a stenosed pulmonary valve.

(NB: afterload = the pressure the heart must work against to eject blood during systole)

Question 26

Why does pulmonary regurgitation RHF?

Answer 26

There is increased pressure in the RV due to the regurgitant blood from the pulmonary artery to the RV (the RV in addition to having to pump the normal volume of blood, has to pump the regurgitant blood as well).

These changes lead to cardiac remodeling (dilatation, hypertrophy) leading to heart failure.

Question 27

What is the acronym for the causes of high output HF & what does it stand for?

Answer 27

NAP MEALS

• Nutritional (B1: thiamine)
• Anaemia
• Pregnancy
• Malignancy (multiple myeloma)
• Endocrine (hyperthyroidism)
• AV malformations
• Liver cirrhosis
• Sepsis

Question 28

Symptoms of which type of LH presents first in high output HF?

Answer 28

RHF symptoms & signs, then LHF

Question 29

What are the group of symtoms seen in LHF?

Answer 29

respiratory symptoms due to fluid accumulation in the lungs

e.g. pulmonary oedema

Question 30

What is the cause of symptoms seen in RHF, and what is it complicated by?

Answer 30

Symptoms of fluid congestion in the system (esp. periphery) due to the backpressure in the venous system

Complicated by:

• salt & water retention due to activation of RAS by renal hypoperfusion and SNS activation.
• Initially RAS and SNS activation initially improve CO, by increasing water retention,
• but later on they propagate the heart failure syndrome.

Question 31

Nme the symptoms of LHF

Answer 31

• ØExertional dyspnea
• ØOrthopnoea (SOB when lying flat)
• ØParoxysmal nocturnal dyspnea – PND (attacks of SOB at night)
• ØFatigue
• ØNocturnal Cough (+/- pink frothy
• sputum)
• ØWheeze

Question 32

Explain the NYHA stages of dyspnoea

Answer 32

Class I: no symptoms

Class II: Symptoms on exertion

Class III: symptoms on minimal exertion

Class IV: symptoms at rest

Question 33

What are the signs of LHF?

Answer 33

Heart

• ↑HR, ↑RR
• Irregularly Irregular heart beat
• Pulsus alternans
• Displaced apex beat
• S3 Gallop rhythm
• S4 in severe HF
• Murmur (AS, MR, AR)

Lungs

• Fine end-inspiratory crackles at lung bases (bibasilar) (pulmonary oedema)
• Wheeze (cardiac asthma)

Question 34

What is cardiac asthma?

Answer 34

medical diagnosis of wheezing, coughing or shortness of breath due to congestive heart failure.

It is known as cardiac asthma because the symptoms mimic ordinary asthma (bronchial asthma)

Question 35

What is the cause of S3 in LHF?

Answer 35

S3: is due to rapid ventricular filling and volume overload –so it makes sense to have that in HF. S3 in general is an indication of ventricular dysfunction

Question 36

What is the cause of S4 in LHF?

Answer 36

S4: due to poor compliance of the ventricle – compliance against a stiff ventricle

Question 37

Name the symptoms of RHF

Answer 37

• Swelling (ankles, facial engorgement, ascites)
• Weight gain (due to oedema)
• Fatigue
• Reduced exercise tolerance
• Anorexia
• Nausea
• Nocturia

Question 38

What is the cause of nocturia in RHF?

Answer 38

as fluid returns from the legs when patient lies down

Question 39

Name the signs of RHF

Answer 39

• Face: face swelling
• Neck: ↑JVP
• Heart/Chest: TR murmur, ↑HR, ↑RR
• Abdomen: Ascites, hepatomegaly
• Other: pitting oedema in ankles & sacrum

Question 40

Name 3 causes of a raised JVP

Answer 40

1) RHF
2) Tricuspid regurg
3) Constrictive pericarditis

Question 41

A 70 years old lady presents with dyspnoea, which has becoming worse over the last months. She also reports cough, productive of pink frothy sputum. On examination her pulse is irregularly irregular, and she has a high respiratory and heart rate. What is the most likely diagnosis?

A.Acute Coronary Syndrome

B.Aortic stenosis

C.Congestive Heart Failure

D.Right Heart Failure

E.Left Heart Failure

Answer 41

E.Left Heart Failure

Question 42

What are some possible

a) Bedside
b) Bloods
c) Imaging

investigations for ?HF

Answer 42

a) bedside: ECG
b) Bloods: FBC, U&Es, LFTs, TFTs, BNP (sensitive but non-specific)
c) Imaging: CXT, TTE

Question 43

What is BNP?

Answer 43

• BNP (=Brain natriuretic peptide) is a a hormone secreted by cardiomyocytes in the heart muscles in response to stretching caused by increased ventricular volume.
• Its physiologic effects include reduction in renal sodium reabsorption, which in turn lead to reduction in circulating blood volume.

Question 44

What is a disadvantage of BNP?

What is the main use of BNP?

Answer 44

Not sensitive, can be raised in a variety of conditions e.g. PE, COPD

Main use = to exclude HF (if negative)

Question 45

Why is

a) FBC

b) LFT
c) TFT

conducted for ?HF

Answer 45

FBC: anaemia and high lymphocyte counts are strong RF and prognostic factors of poor survival.

LFTs: check for abdo congestion

TFTs: check for hypo/hyperthyroidism

Question 46

If BNP was raised in a ?HF pt, what is the nect step?

Answer 46

TTE

Transthoracic echocardiogram coupled with doppler

(diagnostic)

Question 47

What is the use of a TTE?

Answer 47

1. May indicate cause (MI, valvular disease)
2. Can calculate ejection fraction (EF) = % of the blood present in the LV which is pumped during systole (Normal EF= 50-70%)
   i. e. helps to differentiate between HFrEF and HFpEF

Question 48

What is the definition of HFrEF?

Answer 48

EF < 40%: HF with reduced ejection fraction

Indicates inability of the ventricle to contract normally

Question 49

What is the definition of HFpEF?

Answer 49

EF >50%: HF with preserved ejection fraction

Indicates inability of the ventricle to relax and fill normally

Question 50

Name some features of HF on an CXR

Answer 50

• Alveolar oedema
  
  • batwing appearance (this is fluid inside the interstitium of the lung)
• B-lines (kerley)
  
  • due to interstitial oedema- accumulation of fluid along interlobular septa
• Cardiomegaly
  
  • cardiothoracic ration > 50%)
• Dilated upper lobe vessels
  
  • indicate pulmonary venous HTN. It is thought to be bc perivascular oedema causes increased resistance at the lung bases and inverts the normal perfusion gradient such that upper lobe blood flow exceeds lower lobe flow.
• Effusion (pleural, transudative)
  
  • (indicated by blunting of the costophrenic angle) – this is fluid outside the lung (cf pulm oedema) and happens after pulmonary oedema (fluid first accumulates inside the lungs and then moves outside)

Question 51

a) What is the Framingham criteria?
b) name some of the major & minor criteria

Answer 51

a) set of criteria required for a clinical diagnosis of HF, requires 2+ major, OR 1 major and 2 minor
b) see image

Question 52

What is the conservative management of HF?

Answer 52

• smoking cessation,
• weight management (exercise),
• diet (reduce salt intake )

Question 53

What is the available medical Tx for HF?

Answer 53

1. ACE inhibitors (enalapril): should be given to ALL pts with LV dysfunction as it improves survival and slows down progression.
2. BBs (carvedilol, bisoprolol): reduce O2 demand on the heart. All patients with CHF should receive a BB once established on an ACEi – improve survival & synergistic effects with ACEi.
3. Diuretics (furosemide, chlorothiazide, spironolactone): use if evidence of fluid retention, monitor electrolytes (spironolactone can cause hyperkalaemia)
4. Digoxin: +inotrope (increases heart contractility), helps improve symptoms but does NOT increase overall survival.
5. Other: hydralazine nitrate, cardiac resynchronization, implantable cardiac defibrillator TREAT THE CAUSE

Question 54

If there is evidence of fluid retention, why are loop diuretics preferred over dieuretics?

Answer 54

Loop dieretics e.g. frusemide act more proximally and are hence more effective

Question 55

What is the most common cause of new onset acute HF?

Answer 55

acute coronary syndrome

Question 56

What are some common causes of acute HF?

Answer 56

1) Decompensation of previous chronic HF
2) Acute Coronary Syndrome

Question 57

Name some factors that contribute to acute decompensation (causing acute HF)

Answer 57

• MI
• Arrhythmias
• Infection
• Hypo/hyperthyroidism
• Uncontrolled HTN

Question 58

What symptoms/signs would be seen on a Hx for ?acute HF

Answer 58

• ØDyspnoea
• ØCough
• ØWheeze
• ØPink frothy sputum
• ØSwelling of the legs
• ØSymptoms of the underlying condition

Question 59

What signs would be seen o/e for ?acute HF

Answer 59

Ø↑HR, ↑RR

ØPulsus alternans

ØCyanosis

ØPeripheral shutdown

ØS3 gallop rhythm

ØFine end inspiratory crackles

Question 60

Explain the management of acute HF

Answer 60

1st secure ABC

1. Sit patient up
2. High-glow Oxygen via non rebreathe mask (Target SpO2 = 94-98%)
3. Furosemide 40-80mg IV (then monitor U&Es as can cause hypokalaemia)
4. (GTN infusion evidence of pulmonary oedema AND SBP > 90mmHg)
5. Consider CPAP (if sats are dropping)
6. Treat cardiogenic shock if BP < 90mmHg with positive inotropes (e.g. dobutamine)

Question 61

Name some complications of HF

Answer 61

ØPleural effusion

ØRenal failure (long standing HF can lead to hypoperfusion)

ØAcute exacerbations

ØDeath

Question 62

A 67-year-old woman presents to her GP complaining of increasing shortness of breath, which becomes worse when trying to sleep. She has a history of hypertension and hyperlipidaemia. On examination, her blood pressure is 148/83 mmHg and heart rate is 126 beats per minute. There is an audible S3 gallop and the jugular venous pressure is elevated 3 cm above normal.

Which investigation would be best to confirm the diagnosis?

A.ECG

B.Brain natriuretic peptide (BNP)

C.Endothelin levels

D.Echocardiogram

E.CXR

Answer 62

D: echo

Question 63

A 62 year old man, 3 months after an MI presents with increasing shortness of breath. He is currently on aspirin, atenolol and simvastatin. An echocardiogram shows an ejection fraction of 30% in the left ventricle. What additional medication should he be given?

A.Carvedilol

B.Furosemide

C.Digoxin

D.Enalapril

E.Morphine

Answer 63

D.Enalapril