Cardiology

Question 1

How do you calculate MAP

Answer 1

DBP + (1/3 x (SBP-DBP))

Question 2

What is the normal blood pressure found in the
-Right ventricle
-Pulmonary artery
-Left atrium
-Left ventricle
-Aorta

Answer 2

RV: 25/8
PA: 25/8
LA: 8/0
LV: 110/8
Aorta: 110/65

Question 3

What is FICKS equation

Answer 3

VO2 (volume oxygen consumption) = CO x (Arterial- venous oxygen consumption)

Question 4

What are class I anti-arrhythmic drugs and name some examples

Answer 4

Class I anti-arrhythmic drugs= sodium channel blockers
-1a: Procainamide
-1b: Lidocaine
-1c: Flecanide

Question 5

What are class II anti-arrhythmic drugs

Answer 5

B-blockers
Atenolol, Bisoprolol, Propanolol

Question 6

What affect do Class I anti-arrhythmic drugs have on the ECG

Answer 6

Prolong QRS +/- QTc

Question 7

What are class III anti-arrhythmic drugs and what affect do they have on the ECG

Answer 7

Class III- potassium channel blocking
Affect: Prolong re-polarisation - increased QT interval

Examples: Amiodarone

Question 8

What class of anti-arrhythmic drug is amiodarone

Answer 8

Class III- potassium channel blocker

Question 9

What class of anti-arrhythmic drug is Flecianide

Answer 9

Sodium channel blocker

Question 10

What are class IV anti-arrhythmic drugs. Give an example and explain their effect on the ECG

Answer 10

Class IV drugs= calcium channel blockers
Examples: Diltiazem, Verapamil
ECG: slow SA and AV node conduction

Question 11

Sotolol has properties of 2 classes of anti-arrhythmic drugs- what are they

Answer 11

Class II- B blocker + Class III- Potassium channel blocker- at higher doses

Question 12

Name side effects of Amiodarone

Answer 12

Lung- ILD
Liver- hepatotoxicity
Thyroid- hyperthyroid
Skin- photosensitivity

Question 13

Which valve opens at the end of isovolaemic contraction

Answer 13

Aortic valve

Question 14

At what phase in the cardiac cycle does the aortic valve close

Answer 14

Isovolaemic relaxation

Question 15

Heart sound S1 correlates to which phase of the cardiac cycle

Answer 15

Start of isovolaemic contraction

Question 16

Which phase of the ECG represent isovolaemic contraction

Answer 16

QRS complex

Question 17

Which phase of the ECG represents the ejection phase of the cardiac cycle

Answer 17

ST-segment

Question 18

What causes prolonged splitting of the second heart sound

Answer 18

Prolonged RV ejection time e.g RV volume overload (ASD), Pressure overload (e.g. TOF, pulmonary stenosis), RV delayed conduction e.g. RBBB

Question 19

What is a paradoxical splitting of S2 and what causes it

Answer 19

Splitting of the second heart sound during expiration (should split during inspiration)

Causes= LV sustained systole. Can be due to
-increased volume: R–> L shunt, heart failure
-increased ejection pressure: Aortic stenosis
-delayed conduction: LBBB

Question 20

What do the following aspects of the sinus venous develop into
-common cardinal
-vitilline
-umbilical

Answer 20

Common cardinal; you have both a L and R sides. They both have anterior and posterior branches. The posterior branches regress.
-R) anterior cardinal branch- travels upwards to form the R) brachiocephalic vein containing the internal jugular vein and R) subclavian vein.
-L) anterior cardinal branch - travels upwards to form the left brachiocephalic vein.
-L) and R) brachiocephalic veins then fuse to form a shunt known as the SVC
-On the left side, any aspect of the left cardinal vein beneath this shunt is supposed to regress .

Vitilline duct: Travel to the yolk sac and form a GI venous plexus and hepatic plexus. Fuse to form the IVC

Umbilical: forms the ductus venous and drains into the IVC

Question 21

What is formed by the following aortic arches
1-
2-
3-
4-
5-
6-

Answer 21

1- MAX (i.e. first is the MAX you can be)- Maxillary artery
2- “Second” = Stapedial artery
3- “C is the first letter in alphabet”- Carotids - becomes right and left common carotids
4- “4 limbs”- right and left subclavian arteries + aortic arch (which becomes descending aorta to supply blood to the feet)
5- degenerates
6- 96 = 2 lung= pulmonary arteries + ductus arteriosus

Question 21

What is formed by the following aortic arches
1-
2-
3-
4-
5-
6-

Answer 21

1- MAX (i.e. first is the MAX you can be)- Maxillary artery
2- “Second” = Stapedial artery
3- “C is the first letter in alphabet”- Carotids - becomes right and left common carotids
4- “4 limbs”- right and left subclavian arteries + aortic arch (which becomes descending aorta to supply blood to the feet)
5- degenerates
6- 96 = 2 lung= pulmonary arteries + ductus arteriosus

Question 22

How does the primitive pulmonary veins form

Answer 22

-Lung bud is formed from foregut
-Creates a splanchnic plexus which initially is connected to umbilical and vitilline venous system
-At day 28, left atrium forms a primordial invagination - common pulmonary vein
-Splanchnic plexus also differentiates into pulmonary vascular bed and grows down to connect to the new pulmonary vein
-Once connection is made, the cardinal and umbilicovitilline connection degenerates

Question 23

What occurs to cause total anomalous pulmonary venous connection

Answer 23

-At day 28, left atrium forms a primordial invagination - common pulmonary vein
-Splanchnic plexus in the primitive lung also differentiates into pulmonary vascular bed and grows down to connect to the new pulmonary vein
-Once connection is made, the cardinal and umbilicovitilline connection is supposed to degenerate

-Failure to do so= TAPV
-If cardinal system is retained: connection of lung to the SVC, RA
-If umbilicovitilline system retain: connection to the IVC, hepatic or portal system

Question 24

What SpO2 would there be before you detected clinical cyanosis in the below patients
-normal Hb
-anaemia
-polycythamia

Answer 24

-normal: 80%
-anaemia: 50%
-polycythaemia: 84%

Question 25

What affect do the following conditions have on the oxygen-hb desaturation curve
-acidosis
-increased diphosphoglycerate
-increased fetal Hb
-Carbon monoxide
-Hypothermia

Answer 25

-Low pH shifts the curve to the Right, reducing affinity to Hb
-DPG made by cells in glycolysis during hypoxia. Increased level = increased hypoxia = shifts curve right

-fetal Hb= increased affinity for oxygen= shifts curve left
-CO= increased affinity for oxygen= shifts curve left
-Low temp= shifts curve left= increased affinity for oxygen

Question 26

What murmur do you get with a
-secundum ASD
-primum ASD

Answer 26

-ASD= pulmonary flow murmur + fixed splitting of the second heart sound
-Primum = ASD close to the endocardial cushion which can affect the AV valves and result in MR. Murmur will be a pan systolic + pulmonary flow + fixed splitting of S2

Question 27

What CHD is most associated with trisomy 21

Answer 27

AVSD

Question 28

Indomethacin is used for PDA treatment. What is its Mechanism of action and side effects

Answer 28

COX 1+ 2 inhibitor - reduced circulating prostaglandins

SE- reduced urine output= fluid retention, thrombcytopenia, NEC, IVH

Question 28

Indomethacin is used for PDA treatment. What is its Mechanism of action and side effects

Answer 28

COX 1+ 2 inhibitor - reduced circulating prostaglandins

SE- reduced urine output= fluid retention, thrombcytopenia, NEC, IVH

Question 29

What is the Rastelli procedure and for what congenital heart defect is it performed

Answer 29

Performed for Truncus arteriosus
Involves sealing the VSD so that the LV pumps into the Truncus and then making a homograft connection from the RV to the main posterior pulmonary artery

Question 29

What is the Rastelli procedure and for what congenital heart defect is it performed

Answer 29

Performed for Truncus arteriosus
Involves sealing the VSD so that the LV pumps into the Truncus and then making a homograft connection from the RV to the main posterior pulmonary artery

Question 30

What is the difference between L-TGA and D-TGA

Answer 30

D-TGA: have parallel circuits. Right and left ventricles + atrium are normally positioned however aorta is connected to RV and pulmonary trunk to the left ventricle.
Need a PDA and ASD/VSD for mixing to survive

L-TGA: congenitally corrected TGA. Inlet and outlet vasculature is “normally” connected however LV and RV sites are switched

Question 31

What is the classical CXR finding for Transposition of the great arteries

Answer 31

Egg on a string

Question 32

Describe the Senning Procedure and when it is used

Answer 32

Used to correct Loop-TGA (where the ventricles are on opposite sides but the rest of the atrial and arterial aspects are normally placed

-PA band to build up strength of left ventricle which up to that point has been pumping to the pulmonary trunk
-Intra-atrial baffle placed to redirect systemic blood from the IVC+SVC –> Right atrium and visa versa for the pulmonary blood –> LA
-Arterial switch operation where great arteries transected and placed in correct anatomical positions

Question 33

Describe the 3-step palliative cardiac pathway involved with a single ventricle e.g. severe tricuspid atresia

Answer 33

1) Blolock-Thaussig shunt- 1st week of life- shunt from subclavian to pulmonary artery to increased pulmonary blood flow

2) Bidirectional Glenn- SVC anastomosis to the pulmonary artery
3) Fontan- IVC anastomosed to the pulmonary artery

At end of Fontan have 2 separate circulations and single ventricle system where systemic blood bypasses the heart

Question 34

What on a ECG would differentiate a VSD from tetralogy of fallot

Answer 34

VSD: get LVH
TOF: get RAD and RVH

Question 35

Describe the 3 steps used in the palliative correction of HLHS

Answer 35

1) Norwood: aim to reconstruct the aorta and improve systemic circulation.
-ASD created
-Pulmonary trunk cut. Distal end is closed so the heart no longer directly supplies the pulmonary arteries
-Proximal end connected to native aorta with homograft material used to reconstruct its size
-BT shunt created to shunt blood from R) subclavian artery to the R) pulmonary artery.
-Sanno shunt may be created to direct some blood from the RV to the pulmonary arteries

2) Bidirectional Glenn- SVC cut and connected to the R) pulmonary artery
3) Fontann- IVC cut and connected directly to the R) pulmonary artery

END circulation: IVC + SVC directed via shunt to the pulmonary artery –> lungs –> pulmonary veins –> LA – (ASD) –> RA –> RV –> Neo-aorta –> circulation

Question 36

What valvular lesion is Williams syndrome associated with

Answer 36

Supra valvular stenosis- aortic and pulmonary

Question 37

What valvular lesion is Alagiles associated with

Answer 37

Peripheral pulmonary artery stenosis

Question 38

What value issue is Turners associated with

Answer 38

Coarctation of the aorta + bicuspid aortic valve

Question 39

What valve issues is Noonans associated with

Answer 39

Valvular pulmonary stenosis

Question 40

How might an older child with Coarctation of the aorta present

Answer 40

Leg pain after exercise
Reduced ETT
Hypertension

On exam- ESM, LVH
CXR- 3 sign, rib notching
ECG: LAD, LVH

Question 41

What murmur does mitral stenosis give you

Answer 41

Mid diastolic rumble

Question 42

what murmur is associated with marfans syndrome

Answer 42

Aortic regurgitation (decrescendo diastolic murmur) due to aortic root dilatation

Question 42

what murmur is associated with marfans syndrome

Answer 42

Aortic regurgitation (decrescendo diastolic murmur) due to aortic root dilatation

Question 43

Name 3 clinical signs of aortic regurgitation

Answer 43

-decrescendo diastolic murmur
-wide pulse pressure
-collapsing pulse
-signs of left heart failure

Question 43

Name 3 clinical signs of aortic regurgitation

Answer 43

-decrescendo diastolic murmur
-wide pulse pressure
-collapsing pulse
-signs of left heart failure

Question 44

What is the risk to the next child is a
-parent
-sibling
is affected by congenital heart disease

Answer 44

Parent- 4-5%
Sibling 2-4%
Usual: 0.8%

Question 45

What is patau syndrome, its features and what CHD is it associated with

Answer 45

Patau = trisomy 13
Sx; midline effects e.g. cleft lip and palate, microcephaly, coloboma, polydactyl, Holoprosencephaly

CHD: 80% have it- ASD, VSD- most common. Also seen with HLHS

Question 46

What is Edwards syndrome
What are its clinical features
What CHD is it associated with

Answer 46

Edwards= trisomy 18
Clinical features: rocker bottom feet, hypertonia, arthrogryposis, omphalmocoele, reduced IQ

90-100% have CHD- ASD/VSD most common
Also get PDA, CoA, TOF, DORV

Question 47

What are the symptoms of DiGeorge syndrome including what CHD is associated with it and was is the genetic abnormality

Answer 47

“CATCH-22”
-Cardiac abnormaliteis- conotruncal defects
-Abnormal facies: low set ears, long nose, short philtrium, micrognathia
-Thymic aplasia
-Cleft palate/ bifid uvula
-Hypocalcamia/ hypoparathyrodis,
-22q11 micro deletion

Question 48

What is the most common CHD associated with 22q11 micro deletion

Answer 48

Tetralogy of Fallot- 35%

Followed by- interrupted aortic arch (20%) and Truncus arterioles (10%)

Question 49

A child presents with hypertension and a ejection systolic murmur plus dysmorphic facial features- what is the likely syndrome

What electrolyte abnormality are they most likely to get

Answer 49

Williams
-supravalvular aortic or pulmonary stenosis
-renal artery stenosis causes hypertension
-facial feature: elfin like facies, long philtrum, broad forehead, short nose

-Hypercalcaemia

Question 50

A child presents with jaundice, a triangular face and a systolic murmur. What is the likely diagnosis and CHD

Answer 50

Allagiles- peripheral pulmonary stenosis

Question 51

What is the mutation in Marfans syndrome and what CHD does it cause

Answer 51

FBN1 mutation- for fibrillin
Aortic root dilatation

Question 52

Noonan syndrome is inherited in what fashion, is a mutation of ..? and is associated with what CHD

Answer 52

AD - mutation in the RAs/mitogen activated protein signalling pathway
CHD- valvular pulmonary stenosis
(+HOCM)

Question 52

Noonan syndrome is inherited in what fashion, is a mutation of ..? and is associated with what CHD

Answer 52

AD - mutation in the RAs/mitogen activated protein signalling pathway
CHD- valvular pulmonary stenosis
(+HOCM)

Question 53

What are the criteria for infective endocarditis called and what are they

Answer 53

Dukes Criteria
-2 major OR 1 major 3 minor OR 5 minor

Major
-Microbiological evidence of IE
*1x PBC +ve for Coxiella
*2xPBC +ve for typical agent
*3x PBC +ve for atypical agent

-Echocardiogram evidence: new vegetation, lesion, regurgitation, abscesses, or dehisistance of a mechanical valve

Minor criteria
-Risk factors for IE: CHD, previous IE, RHD, CVC, Prosthetic valve, mitral valve prolapse
-Fever >38
-Immunological evidence: Oslers nodes, nephritis (haematuria/proteinuria), Rheumatoid factor +Ve, low complement
-Vascular phenomena: splinter haemorrhages, Janeway lesions, Roths spots
-+ve blood culture not meeting major criteria

Question 54

Who receives IE prophylaxis before a dental procedure

Answer 54

-Previous IE, RHD, prosthetic valve
-CHD with stents or unrepaired/palliation
-CHD with repair <6 months ago

Question 55

What are the criteria for diagnosis of rheumatic fever

Answer 55

JONES criteria
-2 major OR 1 major 2 minor = definitive
-1 major, 1 minor, preceding GAS = probable

Evidence of preceding GAS (ASOT and Anti-DNAse titres or throat swab)
PLUS
Major- JONES
-Joints- polyarthritis
-O-Carditis- new MR, AR, pericarditis, myocarditis, subclinical endocarditis on echocardiogram
-Nodules- subcutaneous nodules
-Erythema margiatum
-Sydenem chorea- can be used to diagnosis RF in isolation

Minor criteria
-Arthralgia
-Fever >38
-Elevated ESR and CRP
-Prolonged PR interval

Question 56

How long do you give IM Benpen in RHD for
-minor MR
-moderate MR
-severe MR

Answer 56

minor: 10 years or until 21y/old which ever is longer
moderate: age 35
severe: age 40

Question 57

Name features of Kawasaki disease
What investigations would you do

Answer 57

Fever > 5 days
Cervical lymphadenoapthy
Mucositis
Macular rash
Red hands/feet +/- desquamation
Non exudative conjunctivitis

Investigations:
-Increased ESR/CRP
-FBC: low/high WCC, thrombocytosis
-Electrolytes: low sodium and albumin
-LFTs; Increased
-Urine: sterile puria
-Echo: effusion, aneurysm, myocardial dysfunction, valvular issues

Question 58

What medication is contraindicated in HOCM

Answer 58

Digoxin- increases contractility of the heart which can worsen the LVOTO

Question 59

What glycogen storage disorder causes HOCM

Answer 59

Pompe disease

Question 60

What dose of aspirin and IVIG do you give in Kawasaki Disease

Answer 60

IVIG- 2mg/kg
Aspirin- 7-12.5mg/kg QID until fever resolves
Then low dose (3-5mg/kg daily) for min 6/52

Question 61

What genetic defect causes genetic HOCM

Answer 61

Autosomal dominant defect in cardiac B myosin

Question 62

Describe aortic dissection types I, II and III
What conditions might they be seen in

Answer 62

Type I; ascending aorta and extending distally
Type II: ascending aorta and limited to the arch
Type III: beginning after L) subclavian artery

Ehlos Danlos + Marfan syndrome

Question 63

Name the Mechanism of action of Digoxin
When is it contra-indicated

Answer 63

Inhibits membrane Na/K ATPas. Reverses the Na/Ca exchanger which would normally pump calcium out of the cell and sodium into the cell. Result = increased intra-cellular calcium to improve cardiac contractility.

Also releases myocardial norepinephrine –> affects the B1 receptors

C/I in HOCM + LVOTO

Question 64

Name the MoA of action Dopamine and Dobutamine

Answer 64

dopamine: increases myocardial norepinephrine
dobutamine: B1 receptor agent

Dobutamine: synthetic catecholamine which acts as beta agonist –> positive inotropic and chronotrophic effect

Question 65

What is the MoA of Enalapril and Captopril

Answer 65

ACE inhibitors- work for RAA pathway to reduce circulating Aldosterone –> reduce blood volume

Reduced angiotensin II also results in vasodilation therefore reduced PVR

Question 65

What is the MoA of Enalapril and Captopril

Answer 65

ACE inhibitors- work for RAA pathway to reduce circulating Aldosterone –> reduce blood volume

Reduced angiotensin II also results in vasodilation therefore reduced PVR

Question 66

What is the MOA of Frusemide
What electrolyte abnormality can it cause

Answer 66

Blocks Na/2Cl/K reabsorption in the Loop of Henle and distal tubule

Hypokalaemia

Question 67

What is the MoA of Spironolactone

What is its advantage compared to other diuretics

Answer 67

Blocks Aldosterone - aldosterone agonist

Potassium sparing

Question 68

What is the MoA of Chlorthiazide

Answer 68

Blocks Na/Cl resorption
in the distal convoluted tubule

Question 69

Why are ACE inhibitors Contraindicated in LVOTO

Answer 69

Concerns about poor coronary artery perfusion if after load is reduced and diastolic coronary artery perfusion is impaired

Question 70

What is the MoA of Milrinone

Answer 70

Phosphodiesterase inhibitor - prevents degradation of cAMP –> positive inotropy

note: cAMP= increased opening of L-calcium channels

Question 70

What is the MoA of Milrinone

Answer 70

Phosphodiesterase inhibitor - prevents degradation of cAMP –> positive inotropy

note: cAMP= increased opening of L-calcium channels

Question 71

What changes are seen in the ECG with hypokalaemia

Answer 71

Flattened T-waves with some inversion
U-waves
“long QT” due to fused T+U waves

Question 72

What changes are seen in hyperkalaemia

Answer 72

Tall peaked T-waves
Shortened QT interval- faster repolarisation
Prolonged PR and QRS interval

Question 73

What does hypocalcaemia do to the ECG and why

Answer 73

Prolongs the QT interval

L) voltage calcium channels only inactivated once intra-cellular calcium reaches a certain threshold. If low calcium levels, takes longer to do so = prolonged plateau phase of cardiac cycle = prolonged QTc

Question 74

Describe the difference between Mobiz type I and II heart block

Answer 74

Mobiz I: progressive lengthening of PR interval until there is a drop of the p wave
Mobiz II: sudden non-conduction of a p-wave. Due to fibrosis at the AV node. At risk of progressing to type III block

Question 74

Describe the difference between Mobiz type I and II heart block

Answer 74

Mobiz I: progressive lengthening of PR interval until there is a drop of the p wave
Mobiz II: sudden non-conduction of a p-wave. Due to fibrosis at the AV node. At risk of progressing to type III block

Question 75

What is the key feature you see with focal atrial tachycardia on ECG and what is first line treatment

Answer 75

p-waves of variable morphology but still in sinus rhythm

B-blockers
May need Radiofrequency ablation

Question 76

What do you see on ECG in atrial flutter
What causes it
What is the treatment

Answer 76

Sawtooth pattern
Re-entrant circuit contained to the atria. AV node prevents conduction this, resulting in a 2:1 or 3:1 block

TX= synchronised DC cardio version 0.5-2J/kg
May need Amiodarone + B-blocker