Paediatric cardiology

Question 1

How many shunts allow the blood in fetal circulation to bypass the lungs?

Answer 1

three

Question 2

What are the three fetal shunts?

Answer 2

Ductus venosus
Foramen Ovale
Ductus arteriosus

Question 3

What does the ductus venosus connect and what does this allow?

Answer 3

Connects the umbilical vein to the inferior vena cava and allows blood to bypass the liver

Question 4

What does the foramen ovale connect and what does this allow?

Answer 4

Connects the right atrium with the left atrium and allows blood to bypass the right ventricle and pulmonary circulation

Question 5

What does the ductus arteriosus connect and what does this allow?

Answer 5

Connects the pulmonary artery with the aorta and allows blood to bypass pulmonary circulation

Question 6

What happens in the first breath a baby takes?

Answer 6

Alveoli expands
Pulmonary vascular resistance decreases
Pressure in right atrium falls
Left atrial pressure is greater than right atrial pressure
Atrial septum causes closure of the foramen ovale
After a few weeks the foramen ovale becomes the fossa ovalis

Question 7

What is required to keep the ductus arteriosus open?

Answer 7

Prostaglandins

Question 8

What causes a drop in prostaglandins in a newborn and what does this then cause?

Answer 8

Increased blood oxygenation. This causes closure of ductus arteriosus which becomes ligamentum arteriosum

Question 9

What stops functioning immediately after birth and why?

Answer 9

Ductus venosus because the umbilical cord is clamped and there is no flow in the umbilical veins. This becomes the ligamentum a few days later

Question 10

What are innocent murmurs also known as?

Answer 10

Flow murmurs

Question 11

What are flow murmurs caused by?

Answer 11

Fast blood flow through various areas of the heart during systole

Question 12

What are the typical features of flow murmurs? (S)

Answer 12

Soft
Short
Systolic
Symptomless
Situation dependent (quieter with standing or only appears in unwell child)

Question 13

What features prompt further investigation in a flow murmur?

Answer 13

Murmur louder than 26
Diastolic murmur
Louder on standing
Other symptoms

Question 14

What investigations may be done to establish cause of murmur in a child?

Answer 14

ECG
Chest xray
Echocardiography

Question 15

What are the differentials of pan-systolic murmurs and where are they heard loudest?

Answer 15

Mitral regurgitation (mitral area- 5th intercostal space, mid-clavicular line)
Tricuspid regurgitation (tricuspid area- 5th intercostal space, left sternal border)
Ventricular septal defect (left lower sternal border)

Question 16

What are the differentials of ejection-systolic murmurs and where are they heard loudest?

Answer 16

Aortic stenosis (aortic area- 2nd intercostal space, right sternal border)
Pulmonary stenosis ( pulmonary area- 2nd intercostal space, left sternal border)
Hypertrophic obstructive cardiomyopathy (4th intercostal space on the left sternal border)

Question 17

What causes a splitting heart sound?

Answer 17

In inspiration, chest wall and diaphragm pulls the lungs open and heart causing negative intra-thoracic pressure, causing right side of heart to fill faster meaning right vebtricle takes longer to empty cause of increased volume causing a delay in pulmonary valve closing

Question 18

What sound do atrial-septal defects cause?

Answer 18

mid-systolic, crescendo-decrescendo murmur that is loudest at the upper left sternal border with a fixed split second heart sound

Question 19

What is the fixed split heart sound like in an atrial-septal defect?

Answer 19

The split second heart sound does not change with inspiration and expiration.

Question 20

What are the heart sound changes in patent ductus arteriosus?

Answer 20

small one may not have any abnormal sounds. Big ones will cause a normal first heart sound with a continuous crescendo-decrescendo machinery murmur that may continue during the second heart sound, making it difficult to hear

Question 21

What is the murmur like in tetralogy of fallot?

Answer 21

arises from pulmonary stenosis, giving an ejection systolic murmur loudest at the pulmonary area (2nd intercostal space, left sternal border)

Question 22

When does cyanosis occur?

Answer 22

When deoxygenated blood enters the systemic circulation. Occurs in a right to left shunt

Question 23

What heart defects cause a right to left shunt?

Answer 23

Ventricular septal defect
Atrial septal defect
Patent ductus arteriosus
Transposition of the great arteries

Question 24

Are patients with VSD, ASD or PDA normally cyanotic?

Answer 24

No beacuse pressure prevents this. If pulmonary pressure becomes higher than systemic pressure then blood starts to flow right to left causing cyanosis- eisenmenger syndrome

Question 25

Which heart defect always results in cyanosis?

Answer 25

Transposition of the great arteries because the right side of the heart pups blood directly into the aorta and systemic circulation.

Question 26

When does the ductus arteriosus normally stop functioning?

Answer 26

1-3 days of birth and closes completely within the first 2-3 weeks of life

Question 27

What might cause patent ductus arteriosus?

Answer 27

Prematurity
Maternal rubella
genetic

Question 28

What is the pathophysiology of PDA?

Answer 28

Pressure in aorta is higher than pulmonary vessels so blood flows in left to right shunt. This increases pressure in pulmonary vessels causing pulmonary HTN leading to right sided strain and hypertrophy. This then leads to left ventricular hypertrophy

Question 29

What are the symptoms of PDA in a newborn?

Answer 29

Murmur
SOB
Difficulty feeding
Poor weight gain
Lower respiratory tract infections

Question 30

How is PDA diagnosed?

Answer 30

Echocardiogram- see left to right shunt and hypertrophy

Question 31

What is the management for PDA?

Answer 31

Monitored till 1 year old until it is unlikly the hole will close- trans-catheter or surgical closure

Question 32

What is the pathophysiology of atrial septal defects?

Answer 32

During development, left and right atria are connected. Two walls grow downwards from the top of the heart then fuse together, called the endocardial cushion. These two walls are called the septum primum and septum secondum. Holes in these walls are ASDs

Question 33

What are the types of atrial septum defect from most common?

Answer 33

Ostium secondum- septum secondum fails to fully close.
Patent foramen ovale- foramen ovale fails to close (although not strictly an ASD)
Ostium primum- septum primum fails to fully close- tend to lead to atroventricular valve defects

Question 34

What are the complications of ASD?

Answer 34

Stroke
Atrial fibrillation/flutter
Pulmonary HTN and right sided heart failure
Eisenmenger syndrome

Question 35

What are the signs of ASD?

Answer 35

Murmur
SOB
Difficulty feeding
Poor weight gain
Lower respiratory tract infections

Question 36

What did the PREMIUM trial find?

Answer 36

There is a possible link between migraine with aura and patent foramen ovale

Question 37

What is the management for ASD?

Answer 37

If small can watch and wait
Can be closed surgically with transvenous catheter closure or open heart surgery

Question 38

What medication is used to reduce risk of clots in adults?

Answer 38

Anticoagulants (aspirin, warfarin, NOACs)

Question 39

What conditions are often associated with VSDs?

Answer 39

Down’s syndrome and Turner’s syndrome

Question 40

What is the presentation of VSD?

Answer 40

often symptomless and can present in adulthood but often picked up on antenatal scan or newborn baby check
Poor feeding
Dyspnoea
Tachypnoea
Failure to thrive

Question 41

what are the examination findings of VSD?

Answer 41

pan-systolic murmur heard more at the left lower sternal border in the third and fourth intercostal spaces.
There may be a systolic thrill on palpation

Question 42

What are the causes of pan-systolic murmur?

Answer 42

VSD, mitral regurgitation and tricuspid regurgitation

Question 43

How is VSD managed?

Answer 43

Often they close spontaneously but can be treated with transvenous catheter via the femoral vein or open heart surgery

Question 44

What is there an increased risk of in VSD?

Answer 44

Infective endocarditis

Question 45

What underlying lesions can result in eisenmenger syndrome?

Answer 45

ASD, VSD, PDA

Question 46

When can Eisenmenger syndrome develop?

Answer 46

1-2 years with large shunts or adulthood with small shunts.

Question 47

When can eisenmenger syndrome develop more quickly?

Answer 47

During pregnancy

Question 48

What occurs due to cyanosis?

Answer 48

Bone marrow responds to low oxygen by producing more red blood cells an haemoglobin. This leads to polycythaemia. A high concentration of red blood cells and haemoglobin make the blood more viscous, making patients more prone to thrombus formation.

Question 49

What is polycythaemia?

Answer 49

High concentration of haemoglobin in the blood

Question 50

What symptom results from polycythaemia?

Answer 50

Plethoric complexion

Question 51

What are the examination findings in eisenmenger syndrome?

Answer 51

Pulmonary hypertension:
- Right ventricular heave
- Loud P2
- Raised JVP
- Peripheral oedema

Underlying septal defect symptom

Right to left shunt and chronic hypoxia
- Cyanosis
- Clubbing
- Dyspnoea
- Plethoric complexion

Question 52

What examination findings are there in eisenmenger syndrome related to underlying septal defect?

Answer 52

ASD- mid-systolic, crescendo-decrescendo murmur loudest at the upper left sternal border
VSD- pan-systolic murmur loudest at the left lower sternal border
PDA- continuous crescendo-decrescendo machinery murmur
Arrhythmias

Question 53

What is the prognosis of eisenmenger syndrome and what are the main causes of death?

Answer 53

Reduces life expectancy y around 20 years compared with healthy individuals. The main causes of death are heart failure, infection, thromboembolism and haemorrhage. The morality can be up to 50% in pregnancy

Question 54

What is the only definitive treatment of eisenmenger syndrome?

Answer 54

heart-lung syndrome

Question 55

What does medical management involve in eisenmenger syndrome?

Answer 55

Pulmonary HTN: Sildenafil
Arrhythmias
Polycythaemia: venesection
Thrombosis: anticoagulation
Infective endocarditis: Prophylactic antibiotics

Question 56

What is coarctation of the aorta?

Answer 56

Narrowing of the aortic arch, usually around the ductus arteriosus

Question 57

What is coarctation of the aorta associated with?

Answer 57

Turner’s syndrome

Question 58

What does coarctation of the aorta do to pressure of the blood?

Answer 58

Reduces pressure of blood flowing to the arteries distal to the narrowing and increases the pressure in areas proximal to the narrowing such as the heart and first three branches of the aorta.

Question 59

What is often the only indication of coarctation in a neonate?

Answer 59

Weak femoral pulses

Question 60

What should you do to see if the blood pressure indicates coarctation of the aorta?

Answer 60

Four limb blood pressure

Question 61

What murmur may be heard in coarctation of the aorta?

Answer 61

systolic murmur heard below the left clavicle and below the left scapula

Question 62

What signs might there be in infancy of coarctation of the aorta?

Answer 62

Tachypnoea
Poor feeding
Grey and floppy baby

Over time:
- Left ventricular heave due to left ventricular hypertrophy
- Underdeveloped left arm where there is reduced flow to the subclavian artery
- Underdevelopment of the legs

Question 63

What is the management in critical aortic coarctation where there is risk of heart failure and death shortly after birth?

Answer 63

Prostaglandin E is used to keep the ductus arteriosus open while waiting for surgery

Question 64

What are the leaflets that make up the aortic valve?

Answer 64

3 and they are the aortic sinuses of Valsalva

Question 65

How many leaflets does the aortic valve have in people born with aortic stenosis?

Answer 65

one, two, three of four leaflets

Question 66

What does significant aortic valve stenosis present as?

Answer 66

Fatigue, SOB, dizziness and fainting. Symptoms are worse on exertion

Question 67

What is the key examination finding in aortic valve stenosis?

Answer 67

Ejection systolic murmur heard loudest at the aortic area (second intercostal space, right sternal border). Crescendo-decrescendo character and radiates to the carotids.

Question 68

What signs might be present on examination in aortic valve stenosis?

Answer 68

Ejection click just before the murmur
Palpable thrill during systole
Slow rising pulse and narrow pulse pressure

Question 69

What is the gold standard management for aortic valve stenosis?

Answer 69

Echocardiogram

Question 70

What are the options for treating stenosis?

Answer 70

Percutaneous balloon aortic valvoplasty
Surgical aortic valvotomy
Valve replacement

Question 71

What are the complications of aortic valve stenosis?

Answer 71

Left ventricular outflow tract obstruction
Heart failure
Ventricular arrhythmias
Bacterial endocarditis
Sudden death, often on exertion

Question 72

How many leaflets is the pulmonary valve usually made up of?

Answer 72

3

Question 73

What other conditions are associated with pulmonary valve stenosis?

Answer 73

Tetralogy of Fallot
William syndrome
Noonan syndrome
Congenital rubella syndrome

Question 74

What are the signs of pulmonary valve stenosis?

Answer 74

Often asymptomatic but may be fatigue on exertion, shortness of breath, dizziness and fainting

Question 75

What are the signs of pulmonary valve stenosis?

Answer 75

Ejection systolic murmur heard loudest at the pulmonary area (second intercostal space, left sternal border)
Palpable thrill in pulmonary area
Right ventricular heave due to right ventricular hypertrophy
Raised JVP with giant a waves

Question 76

What is the gold standard for diagnosing pulmonary valve stenosis?

Answer 76

Echocardiogram

Question 77

What is the management for symptomatic pulmonary valve stenosis?

Answer 77

Balloon valvuloplasty via a venous catheter through femoral vein and inferior vena cava into the right side of the heart to the pulmonary valve

Question 78

What are the four coexisting pathologies in tetralogy of fallot?

Answer 78

VSD
Overriding aorta
Pulmonary valve stenosis
Right ventricular hypertrophy

Question 79

How does overriding aorta contribute to TOF?

Answer 79

aortic valve is placed further to the right than normal, above the VSD, meaning when the right ventricle contracts and sends blood upwards, the aorta is in the direction of travel of that blood. therefore a greater proportion of deoxygenated blood enters the aorta from the right side of the heart

Question 80

How does pulmonary valve stenosis contribute to TOF?

Answer 80

Provides greater resistance against the flow of blood from the right ventricle. This encourages blood to flow through the VSD and into the aorta rather than taking the normal route into the pulmonary vessels.

Question 81

What direction is the shunt in TOF?

Answer 81

Right to left meaning blood bypasses the child’s lungs, causing cyanosis

Question 82

What are the risk factors for TOF?

Answer 82

Rubella infection
Increased age of the mother (over 40)
Alcohol consumption in pregnancy
Diabetic mother

Question 83

What is the investigation of choice for all structural congenital cardiac abnormalities?

Answer 83

Echocardiogram

Question 84

What might a chest xray show in tetralogy of fallot?

Answer 84

Boot shaped heart due to right ventricular thickening

Question 85

What are the signs and symptoms of TOF?

Answer 85

Cyanosis
Clubbing
Poor feeding
Poor weight gain
Ejection systolic murmur heard loudest in the pulmonary area (second intercostal space, left sternal border)
Tet spells

Question 86

What are tet spells?

Answer 86

Intermittent symptomatic periods where the right to left shunt becomes temporarily worsened precipitating a cyanotic episode.

Question 87

When do tet spells occur?

Answer 87

When the child is physically exerting themselves, crying or waking.

Question 88

Why do tet spells occur on exertion?

Answer 88

They generate a lot of carbon dioxide which is a vasodilator causing systemic vasodilation and therefore reduces the systemic vascular resistance. Blood flow will choose the path of least resistance, so blood will be pumped from the right ventricle to the aorta rather than the pulmonary vessels, bypassing the lungs

Question 89

What might children do when they experience a tet spell?

Answer 89

Older children may squat, younger children can be positioned with their knees to their chest. Squatting increases the systemic vascular resistance encouraging blood to enter the pulmonary vessels.

Question 90

What is the medical management for a tet spell?

Answer 90

Oxygen
Beta blockers
IV fluids to increase pre-load
morphine can decrease respiratory drive
sodium bicarbonate can buffer any metabolic acidosis that occurs
Phenylephrine infusion can increase systemic vascular resistance

Question 91

In neonates, what can help with TOF?

Answer 91

Prostaglandins to maintain the ductus arteriosus

Question 92

What is the definitive treatment for TOF?

Answer 92

Total surgical repair however mortality is around 5%

Question 93

What is the prognosis of TOF with corrective surgery?

Answer 93

90% of patients will live into adulthood

Question 94

What is Ebstein’s anomaly?

Answer 94

A congenital heart condition where the tricuspid valve is set lower in the right side of the heart, causing a bigger right atrium and a smaller right ventricle. Leading to poor flow from right atrium to right ventricle.

Question 95

Which way is the shunt in Ebstein’s anomaly?

Answer 95

right to left shunt

Question 96

What is Ebstein’s anomaly associated with?

Answer 96

Wolff-Parkinson-White syndrome

Question 97

What is the presentation of Ebstein’s anomaly?

Answer 97

Evidence of heart failure
Gallop rhythm heard on auscultation with third and fourth heart sounds
Cyanosis
SOB and tachypnoea
Poor feeding
Collapse or cardiac arrest

Question 98

When do symptoms of Ebstein’s anomaly typically appear?

Answer 98

A few days after birth when the ductus arteriosus closes

Question 99

What is the diagnosis for Ebstein’s anomaly?

Answer 99

Echocardiogram

Question 100

What is the management for Ebstein’s anomaly

Answer 100

Medical management- treat arrhythmia and heart failure
Prophylactic antibiotics to prevent infective endocarditis
Surgical correction

Question 101

What is transposition of the great arteries?

Answer 101

Attachments of the aorta and pulmonary trunk are swapped so the right ventricle pumps blood to the aorta and left ventricle pumps blood to the pulmonary trunk and they don’t mix.

Question 102

What can transposition of the great arteries also be associated with?

Answer 102

VSD
Coarctation of the aorta
Pulmonary stenosis

Question 103

When is transposition of the great arteries often diagnosed?

Answer 103

Antenatal ultrasound scans

Question 104

What can be used to manage transposition of the great arteries?

Answer 104

VSD will allow some time until definitive treatment
Prostaglandin to keep ductus arteriosus open
Balloon septostomy involves inserting a catheter into the foramen ovale via the unbilicus and inflating a balloon to create a large ASD.
Open heart surgery is the definitive management . A cardiopulmonary bypass machine is used to perform an arterial switch procedure within a few days of birth.